This document summarizes an experimental study on the effects of strategic and natural risk on entrepreneurship decisions. The study finds:
1) When only strategic risk is present, entry and investment levels equalize with the outside option over time as predicted by theory.
2) When both strategic and natural risks are present, entrepreneurs consistently earn less than the outside option due to excessive entry and investment.
3) Adding natural risk to the outside option "democratizes" entrepreneurship, leading to more switching between entrepreneurship and the outside option over time.
Distress risk and stock returns in an emerging marketAlexander Decker
This research study examines the relationship between financial distress and stock returns of listed companies in Pakistan. The study uses Altman's Z-score model to measure distress risk and subsequent realized stock returns as a proxy for market performance. The sample includes 17 distressed and 17 non-distressed firms listed on the Karachi Stock Exchange between 2006-2011. The results found a positive but insignificant relationship between distress risk and stock returns for distressed firms, suggesting distress risk may be a systematic risk for the Pakistani stock market to some extent. For non-distressed firms, distress risk was negatively correlated with stock returns and this relationship was statistically significant. The study is inconclusive on whether distress risk explains stock returns in Pakistan.
IPO underpricing analysis in Indonesia during 2012-2016edwin hutauruk
ANALYSIS OF FACTORS AFFECTING THE UNDERPRICING OF INITIAL PUBLIC OFFERING (IPO) SECTOR SERVICES / NON-MANUFACTURING IN INDONESIA STOCK EXCHANGE PERIOD 2012-2016
This study examined factors that influence individual participation in the Zimbabwe Stock Exchange. Data was collected through questionnaires from stock brokers, asset managers, and investment advisors. Statistical analysis found that financial education, social interaction, awareness, transaction costs, internet access, cognitive skills, perceptions, life satisfaction, and liquidity constraints significantly impacted participation levels. However, gender, trust, and health status did not have a significant influence. The results suggest that improving financial literacy, reducing costs, and increasing awareness could help boost individual investor participation in the Zimbabwe stock market.
The relationship between free cash flows and agency costs levels evidence fro...Alexander Decker
This document summarizes previous research on the relationship between free cash flows and agency costs. It discusses how high levels of free cash flow can lead to agency problems as managers may invest in negative NPV projects. Previous studies found support for Jensen's free cash flow theory and showed that mechanisms like debt and dividends can help control agency costs by reducing excess cash under managers' discretion. The purpose of the current study is to examine how Iranian firms use dividends and leverage to address agency problems from free cash flows.
This document discusses using artificial neural networks for trading stocks and other financial assets. It explains that neural networks are well-suited for financial markets which are noisy and unpredictable. The document outlines what is required to develop a neural network trading system, including selecting important input variables from fundamental and technical analysis. Fundamental analysis variables discussed include company size, valuation ratios, and attributes identified by Benjamin Graham that may indicate an undervalued stock. Technical analysis techniques covered are charting, indicators, and oscillators. The document aims to discuss how to develop a neural network trading strategy that can operate given real-world constraints.
This research aims to explore the usefulness of the Altman model for predicting bankruptcy of the
cigarette companies that listed in Indonesia Stock Exchange.This study also attempts to measurethe effects of
the Altman’s scores on the stock prices of the companies. The sample of this study is all cigarette companies
that publish their financial report for the periods 2013 until 2016. There are four companies that published their
financial report in those periods. They are PT
This document summarizes a study on the relationship between firm investment and financial status. The study uses a sample of 1,317 firms from 1987 to 1994 to examine how investment decisions differ across financially constrained and unconstrained firms. It finds that investment is most sensitive to internal funds for firms that are least financially constrained, consistent with the findings of Kaplan and Zingales (1997). Statistical tests show this difference is statistically significant. Additionally, firms that reduced dividends exhibited traditional signs of greater financial constraints such as lower current ratios and profitability compared to firms that increased dividends. The study uses multiple discriminant analysis and regression analysis to classify firms and compare investment-cash flow sensitivities between financially constrained and unconstrained groups.
An investor has different investment avenues to park his/her hard earned savings. Investment is the current commitment of money or other resources in the expectation of repairing future benefit. Investment is an economic action. This involves creation of assts or exchange of assets with profit motive. This survey analyse the investors favourite investments avenues and also analyse the before making investment decisions. Because sometimes fear and greed while making investment decisions play a vital role while making their investment decisions. The survey has been conducted among 350 investors in different parts of Salem. The collected data have been analysed with the help of chi-square test and percentages.
Distress risk and stock returns in an emerging marketAlexander Decker
This research study examines the relationship between financial distress and stock returns of listed companies in Pakistan. The study uses Altman's Z-score model to measure distress risk and subsequent realized stock returns as a proxy for market performance. The sample includes 17 distressed and 17 non-distressed firms listed on the Karachi Stock Exchange between 2006-2011. The results found a positive but insignificant relationship between distress risk and stock returns for distressed firms, suggesting distress risk may be a systematic risk for the Pakistani stock market to some extent. For non-distressed firms, distress risk was negatively correlated with stock returns and this relationship was statistically significant. The study is inconclusive on whether distress risk explains stock returns in Pakistan.
IPO underpricing analysis in Indonesia during 2012-2016edwin hutauruk
ANALYSIS OF FACTORS AFFECTING THE UNDERPRICING OF INITIAL PUBLIC OFFERING (IPO) SECTOR SERVICES / NON-MANUFACTURING IN INDONESIA STOCK EXCHANGE PERIOD 2012-2016
This study examined factors that influence individual participation in the Zimbabwe Stock Exchange. Data was collected through questionnaires from stock brokers, asset managers, and investment advisors. Statistical analysis found that financial education, social interaction, awareness, transaction costs, internet access, cognitive skills, perceptions, life satisfaction, and liquidity constraints significantly impacted participation levels. However, gender, trust, and health status did not have a significant influence. The results suggest that improving financial literacy, reducing costs, and increasing awareness could help boost individual investor participation in the Zimbabwe stock market.
The relationship between free cash flows and agency costs levels evidence fro...Alexander Decker
This document summarizes previous research on the relationship between free cash flows and agency costs. It discusses how high levels of free cash flow can lead to agency problems as managers may invest in negative NPV projects. Previous studies found support for Jensen's free cash flow theory and showed that mechanisms like debt and dividends can help control agency costs by reducing excess cash under managers' discretion. The purpose of the current study is to examine how Iranian firms use dividends and leverage to address agency problems from free cash flows.
This document discusses using artificial neural networks for trading stocks and other financial assets. It explains that neural networks are well-suited for financial markets which are noisy and unpredictable. The document outlines what is required to develop a neural network trading system, including selecting important input variables from fundamental and technical analysis. Fundamental analysis variables discussed include company size, valuation ratios, and attributes identified by Benjamin Graham that may indicate an undervalued stock. Technical analysis techniques covered are charting, indicators, and oscillators. The document aims to discuss how to develop a neural network trading strategy that can operate given real-world constraints.
This research aims to explore the usefulness of the Altman model for predicting bankruptcy of the
cigarette companies that listed in Indonesia Stock Exchange.This study also attempts to measurethe effects of
the Altman’s scores on the stock prices of the companies. The sample of this study is all cigarette companies
that publish their financial report for the periods 2013 until 2016. There are four companies that published their
financial report in those periods. They are PT
This document summarizes a study on the relationship between firm investment and financial status. The study uses a sample of 1,317 firms from 1987 to 1994 to examine how investment decisions differ across financially constrained and unconstrained firms. It finds that investment is most sensitive to internal funds for firms that are least financially constrained, consistent with the findings of Kaplan and Zingales (1997). Statistical tests show this difference is statistically significant. Additionally, firms that reduced dividends exhibited traditional signs of greater financial constraints such as lower current ratios and profitability compared to firms that increased dividends. The study uses multiple discriminant analysis and regression analysis to classify firms and compare investment-cash flow sensitivities between financially constrained and unconstrained groups.
An investor has different investment avenues to park his/her hard earned savings. Investment is the current commitment of money or other resources in the expectation of repairing future benefit. Investment is an economic action. This involves creation of assts or exchange of assets with profit motive. This survey analyse the investors favourite investments avenues and also analyse the before making investment decisions. Because sometimes fear and greed while making investment decisions play a vital role while making their investment decisions. The survey has been conducted among 350 investors in different parts of Salem. The collected data have been analysed with the help of chi-square test and percentages.
Transaction cost expenditures and the relative performance of mutual funds(13)bfmresearch
This document analyzes trading costs for a sample of 132 equity mutual funds between 1984 and 1991. It finds that trading costs, including spread costs and brokerage commissions, average 0.78% of fund assets per year and vary substantially across funds. Higher trading costs are negatively associated with fund returns, even after controlling for expense ratios. Turnover explains some but not all of the variation in trading costs. Fund investment objectives are related to average trading costs but variation within objectives is greater than across objectives.
This document is a bachelor thesis that investigates the impact of capital structure choice on investment decisions of firms. Specifically, it examines the effect of leverage on investment decisions for all Dutch AEX-listed firms as well as separately for high-growth and low-growth firms. The thesis begins with an introduction and literature review on the relationship between leverage and investment. It then describes the regression model that will be used for analysis and defines the variables. Finally, it presents the results of the regression analysis and draws conclusions regarding the effect of leverage on investment decisions.
This document discusses a study that uses a simple screening method based on publicly available financial statements to select stocks from the Russell 2000 index that consistently outperform the index from 2001-2005. The screen generates an annualized excess return (alpha) of 7.58% over this period. The document estimates that widespread adoption of XBRL could reduce the cost of capital for small public companies by 1.75-3.03% by enabling easier analysis of financial statements, particularly for companies that currently lack analyst coverage. The returns to the simple screening method provide evidence that information from financial statements not fully incorporated into stock prices, and that XBRL could help reduce this inefficiency.
The Relationship Between Firm Investment and Financial StatusSudarshan Kadariya
This document summarizes a study that examined the relationship between firm investment and financial status using a sample of 1,317 public firms between 1987-1994. The study found that:
1) Firms classified as facing fewer financial constraints (NFC) had stronger financial ratios and investment sensitivity to cash flow compared to financially constrained (FC) firms.
2) Investment levels were more sensitive to internal cash flow for NFC firms compared to partially financially constrained and FC firms.
3) The study validated prior research finding that investment decisions of more creditworthy firms are more sensitive to internal funds availability.
This document summarizes a study that examines the relationship between corruption and firm investment in Vietnam using survey data from Vietnamese small and medium enterprises. The study tests two hypotheses: that corruption hinders firm investment by increasing costs and promoting rent-seeking behaviors, or that corruption boosts investment by helping firms overcome bureaucratic obstacles. The study employs both a simple logistic regression model and a bivariate probit model with a corruption instrument variable to address potential endogeneity between corruption and investment. The results provide evidence that corruption hinders firm investment in Vietnam, which may partially explain the negative effect of corruption on firm performance found in previous research.
This document discusses the skills used by economists, including abstraction, modeling, and framing. It focuses on how these skills apply in a market with perfect competition. It provides definitions and examples of abstraction as simplifying complex realities, modeling as simplified representations that capture essential features, and framing as the social construction of phenomena. It describes how in a perfectly competitive market, there is perfect information, no barriers to entry/exit, identical goods, price-taking firms, and minimal risk-taking and framing effects due to prices being set by the market. Deductive reasoning is also discussed as moving from general rules to specific conclusions.
Factors affecting stock market prices in amman stock exchangeAlexander Decker
This document summarizes a study that examined factors affecting stock market prices on the Amman Stock Exchange. The study used surveys to collect data on how internal factors like dividend policy, firm size, management quality, and financial situation impact stock prices. It found that inflation had the most impact on prices, while the nature of the firm's business had the least. The study recommended that companies get more involved in drafting laws and regulations to strengthen their role in the stock market.
Financial Distress Prediction With Altman Z-Score And Effect On Stock Price: ...inventionjournals
: This study aimed to obtain empirical evidence about the state of financial distress prediction using the Altman Z-score and ratio-ratio test Z-score in influencing the price of shares in the chemical subsectors listed in Indonesia Stock Exchange 2009-2014 period. The samples were determined by purposive sampling, while data processing using Microsoft Excel, and SPSS. Financial distress only occurs in ETWA company in 2014 in the category of bankruptcy. Effect of a Z-score to the stock price is significantly 0.004 and ratio-ratio of the Altman Z score is working capital to total assets have no significant effect amounted to 0,085, retained earnings to total assets have no significant effect amounted to 0,478, EBIT to total assets have a significant influence amounted to 0,016, and the book value of equity to book value of total debt had no significant effect of 0.078. Contribution ratio-ratio Altman Z-score of 48.6% to the stock price. In conclusion, the financial distress that are in reasonably good condition. Z-score can be used to predict stock prices, and ratios of Z-score only ebit to total assets can significantly affect stock prices partially.
This study analyzes the motives and geographical structure of Finnish mergers and acquisitions (M&As) between 1989-2000 using a multilogit model. The study finds that characteristics indicating a firm's ability to monitor and internalize synergies, such as a highly educated workforce, increase the probability of acquiring a distant target, especially internationally. Having research and development (R&D) capital from investments also increases the likelihood of international acquisitions. For targets, having R&D capital increases the probability of being acquired across all categories but especially internationally. The study suggests factors like education and R&D abilities help firms overcome barriers to internalizing synergies from more distant M&As.
This document provides an overview of agency theory and transaction cost theory from an economic perspective. It discusses the principal-agent problem, where the interests of the principal and agent may diverge due to information asymmetry or differing risk preferences. This can lead to issues like moral hazard or adverse selection. The document also examines how transaction costs relate to the costs involved in economic exchanges. It explores how agency theory and transaction costs can help explain organizational structures and governance.
This document summarizes a research paper that examines "hot" debt markets and their impact on corporate capital structure. The paper finds that:
1) Perceived favorable capital market conditions and information asymmetry costs are important factors that lead firms to issue more debt during hot debt market periods.
2) Firms with high information asymmetry costs issue significantly more debt when debt market conditions are hot compared to when markets are cold.
3) Hot debt market issuance has a persistent effect on the capital structure of issuing firms, which do not actively rebalance their leverage levels over the long-term as capital structure theories would predict.
This research investigates the determinants of the capital structure of firms listed service sector on BIST(Borsa Istanbul) and the adjustment process towards this target. The econometric analysis employs the Generalized Method of Moments estimators (GMM-Sys, GMM difference) techniques that controls for unobserved firm-specific effects and the endogeneity problem. The findings of the paper suggest that firms have target leverage ratios and they adjust to them relatively fast. Consistent with the predictions of capital structure theories and the findings of the empirical literature, the results of this paper suggest that size, assets tangibility, profitability, growth opportunity except earnings volatility have significant effects on the capital structure choice of hotels and restaurants.The capital structure or leverage is measured by total debt ratio. Analysis results indicates that firms with high profits, sizable, high fixed assets ratio and high total sales and more growth opportunities tend to have relatively less debt in their capital structures.
SME Manufacturing Credit Risk Model Forecast Correctness and Result of ModelIOSR Journals
This document summarizes a study that analyzed financial data from 385 Thai small and medium enterprises (SMEs) to develop a logistic regression model for predicting financial distress. The study found statistically significant differences in liquidity, leverage, and profitability ratios between 37 financially distressed SMEs and 348 non-distressed SMEs. A logistic regression model using ratios related to liquidity, profitability, and financial leverage accurately classified the SMEs as financially distressed or not. The results indicate the model can help identify distressed SMEs and assist policymakers, business owners, and consultants in developing strategies to support the sustainable growth of Thai SMEs and industries.
This document provides an introduction and overview of a study on the financial performance analysis of Thulasi Pharmacies India Pvt Ltd. It begins with an acknowledgement section and table of contents. Chapter 1 introduces the company, providing its profile, mission, vision, services offered, and details on camps and social activities. The introduction establishes Thulasi as a leading pharmacy chain in South India with over 50 branches and an annual turnover of over 130 crores.
Corporate Bridge Group provides financial training programs and e-learning services. It has two verticals: 1) Edu Corporate Bridge which deals with instructor-led and online training programs in financial courses and exam preparatory courses. 2) Elearning Labz which develops custom e-learning content and solutions. The management team includes Dheeraj Vaidya as CEO, S. Premananda as MD, and Kayideni Kholi. Business valuation is complex and involves various financial and non-financial factors. Valuations are performed for different purposes such as transactions, disputes, compliance, and planning. Direct valuation methods like discounted cash flow models provide an explicit equity value by discounting estimated future cash flows.
Decision makers often face powerful incentives to increase risk-taking on behalf of others either through bonus contracts or competitive relative performance contracts. Motivated by examples from the recent financial crisis, we conduct an experimental study of risk-taking on behalf of others using a large sample with subjects from all walks of life. We find that people respond to such incentives without much apparent concern for stakeholders. Responses are heterogeneous and mitigated by personality traits. The findings suggest that lack of concern for others’ risk exposure hardly requires “financial psychopaths” in order to flourish, but is diminished by social concerns. We believe the research reported here is the first to experimentally investigate the effects of incentives on risk-taking on behalf of others, and to do so on a large scale using a random sample of the general population.
By Ola Andersson, Håkan J. Holm, Jean-Robert Tyran and Erik Wengström
To read more research articles, please visit https://www.hhs.se/site
International Journal of Business and Management Invention (IJBMI) is an international journal intended for professionals and researchers in all fields of Business and Management. IJBMI publishes research articles and reviews within the whole field Business and Management, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online.
This master's thesis examines whether hedge fund performance is due to manager skill or luck. The document provides an abstract that summarizes the thesis. It applies a false discovery rate methodology to measure the proportion of lucky funds among hedge funds with statistically significant returns. The results show that hedge funds outperform due to skill more than luck, and underperform due to being unlucky rather than unskilled. Event driven, relative value, and multi-strategy funds have very low false discovery rates, implying manager skill. CTA, relative value, and short bias funds have higher false discovery rates when underperforming, implying more luck than skill. Small funds' outperformance is also more due to luck, while large funds' underperformance is
This document provides an overview of a research project on IPO pricing and growth rates implied in offer prices. It contains an introduction that discusses challenges in valuing IPO firms and approaches used. It also includes a literature review, research methodology with objectives and data sources, and a summary of key findings. The research derives implied cash flow growth rates from 184 European IPOs priced using discounted cash flow models. It finds the average IPO firm is expected to grow cash flows by 33% annually, though actual post-IPO growth rates are slightly positive. Forecast errors are associated with factors like market-to-book ratio and leverage, and negatively impact long-term stock returns.
The author conducted an experiment to analyze the disposition effect among 58 student subjects. In a simulated financial market, subjects decided whether to hold or sell assets over 20 periods as values fluctuated. The majority of subjects exhibited the disposition effect by selling winning assets too early and holding losing assets too long. Correlations between the disposition effect and variables like gender, age, major, and risk aversion were explored but inconclusive due to small sample sizes for some groups. Overall, the experiment provided evidence that the disposition effect is present among most investors.
This document summarizes a research paper that examines the relationship between product market strategies (innovator vs imitator), financing strategies (venture capital vs other), and product market outcomes. The authors find that innovator firms are more likely to obtain venture capital financing than imitator firms. They also find that venture capital is associated with a significantly faster time to market, especially for innovator firms. This suggests venture capital plays an important role in supporting innovative companies.
Transaction cost expenditures and the relative performance of mutual funds(13)bfmresearch
This document analyzes trading costs for a sample of 132 equity mutual funds between 1984 and 1991. It finds that trading costs, including spread costs and brokerage commissions, average 0.78% of fund assets per year and vary substantially across funds. Higher trading costs are negatively associated with fund returns, even after controlling for expense ratios. Turnover explains some but not all of the variation in trading costs. Fund investment objectives are related to average trading costs but variation within objectives is greater than across objectives.
This document is a bachelor thesis that investigates the impact of capital structure choice on investment decisions of firms. Specifically, it examines the effect of leverage on investment decisions for all Dutch AEX-listed firms as well as separately for high-growth and low-growth firms. The thesis begins with an introduction and literature review on the relationship between leverage and investment. It then describes the regression model that will be used for analysis and defines the variables. Finally, it presents the results of the regression analysis and draws conclusions regarding the effect of leverage on investment decisions.
This document discusses a study that uses a simple screening method based on publicly available financial statements to select stocks from the Russell 2000 index that consistently outperform the index from 2001-2005. The screen generates an annualized excess return (alpha) of 7.58% over this period. The document estimates that widespread adoption of XBRL could reduce the cost of capital for small public companies by 1.75-3.03% by enabling easier analysis of financial statements, particularly for companies that currently lack analyst coverage. The returns to the simple screening method provide evidence that information from financial statements not fully incorporated into stock prices, and that XBRL could help reduce this inefficiency.
The Relationship Between Firm Investment and Financial StatusSudarshan Kadariya
This document summarizes a study that examined the relationship between firm investment and financial status using a sample of 1,317 public firms between 1987-1994. The study found that:
1) Firms classified as facing fewer financial constraints (NFC) had stronger financial ratios and investment sensitivity to cash flow compared to financially constrained (FC) firms.
2) Investment levels were more sensitive to internal cash flow for NFC firms compared to partially financially constrained and FC firms.
3) The study validated prior research finding that investment decisions of more creditworthy firms are more sensitive to internal funds availability.
This document summarizes a study that examines the relationship between corruption and firm investment in Vietnam using survey data from Vietnamese small and medium enterprises. The study tests two hypotheses: that corruption hinders firm investment by increasing costs and promoting rent-seeking behaviors, or that corruption boosts investment by helping firms overcome bureaucratic obstacles. The study employs both a simple logistic regression model and a bivariate probit model with a corruption instrument variable to address potential endogeneity between corruption and investment. The results provide evidence that corruption hinders firm investment in Vietnam, which may partially explain the negative effect of corruption on firm performance found in previous research.
This document discusses the skills used by economists, including abstraction, modeling, and framing. It focuses on how these skills apply in a market with perfect competition. It provides definitions and examples of abstraction as simplifying complex realities, modeling as simplified representations that capture essential features, and framing as the social construction of phenomena. It describes how in a perfectly competitive market, there is perfect information, no barriers to entry/exit, identical goods, price-taking firms, and minimal risk-taking and framing effects due to prices being set by the market. Deductive reasoning is also discussed as moving from general rules to specific conclusions.
Factors affecting stock market prices in amman stock exchangeAlexander Decker
This document summarizes a study that examined factors affecting stock market prices on the Amman Stock Exchange. The study used surveys to collect data on how internal factors like dividend policy, firm size, management quality, and financial situation impact stock prices. It found that inflation had the most impact on prices, while the nature of the firm's business had the least. The study recommended that companies get more involved in drafting laws and regulations to strengthen their role in the stock market.
Financial Distress Prediction With Altman Z-Score And Effect On Stock Price: ...inventionjournals
: This study aimed to obtain empirical evidence about the state of financial distress prediction using the Altman Z-score and ratio-ratio test Z-score in influencing the price of shares in the chemical subsectors listed in Indonesia Stock Exchange 2009-2014 period. The samples were determined by purposive sampling, while data processing using Microsoft Excel, and SPSS. Financial distress only occurs in ETWA company in 2014 in the category of bankruptcy. Effect of a Z-score to the stock price is significantly 0.004 and ratio-ratio of the Altman Z score is working capital to total assets have no significant effect amounted to 0,085, retained earnings to total assets have no significant effect amounted to 0,478, EBIT to total assets have a significant influence amounted to 0,016, and the book value of equity to book value of total debt had no significant effect of 0.078. Contribution ratio-ratio Altman Z-score of 48.6% to the stock price. In conclusion, the financial distress that are in reasonably good condition. Z-score can be used to predict stock prices, and ratios of Z-score only ebit to total assets can significantly affect stock prices partially.
This study analyzes the motives and geographical structure of Finnish mergers and acquisitions (M&As) between 1989-2000 using a multilogit model. The study finds that characteristics indicating a firm's ability to monitor and internalize synergies, such as a highly educated workforce, increase the probability of acquiring a distant target, especially internationally. Having research and development (R&D) capital from investments also increases the likelihood of international acquisitions. For targets, having R&D capital increases the probability of being acquired across all categories but especially internationally. The study suggests factors like education and R&D abilities help firms overcome barriers to internalizing synergies from more distant M&As.
This document provides an overview of agency theory and transaction cost theory from an economic perspective. It discusses the principal-agent problem, where the interests of the principal and agent may diverge due to information asymmetry or differing risk preferences. This can lead to issues like moral hazard or adverse selection. The document also examines how transaction costs relate to the costs involved in economic exchanges. It explores how agency theory and transaction costs can help explain organizational structures and governance.
This document summarizes a research paper that examines "hot" debt markets and their impact on corporate capital structure. The paper finds that:
1) Perceived favorable capital market conditions and information asymmetry costs are important factors that lead firms to issue more debt during hot debt market periods.
2) Firms with high information asymmetry costs issue significantly more debt when debt market conditions are hot compared to when markets are cold.
3) Hot debt market issuance has a persistent effect on the capital structure of issuing firms, which do not actively rebalance their leverage levels over the long-term as capital structure theories would predict.
This research investigates the determinants of the capital structure of firms listed service sector on BIST(Borsa Istanbul) and the adjustment process towards this target. The econometric analysis employs the Generalized Method of Moments estimators (GMM-Sys, GMM difference) techniques that controls for unobserved firm-specific effects and the endogeneity problem. The findings of the paper suggest that firms have target leverage ratios and they adjust to them relatively fast. Consistent with the predictions of capital structure theories and the findings of the empirical literature, the results of this paper suggest that size, assets tangibility, profitability, growth opportunity except earnings volatility have significant effects on the capital structure choice of hotels and restaurants.The capital structure or leverage is measured by total debt ratio. Analysis results indicates that firms with high profits, sizable, high fixed assets ratio and high total sales and more growth opportunities tend to have relatively less debt in their capital structures.
SME Manufacturing Credit Risk Model Forecast Correctness and Result of ModelIOSR Journals
This document summarizes a study that analyzed financial data from 385 Thai small and medium enterprises (SMEs) to develop a logistic regression model for predicting financial distress. The study found statistically significant differences in liquidity, leverage, and profitability ratios between 37 financially distressed SMEs and 348 non-distressed SMEs. A logistic regression model using ratios related to liquidity, profitability, and financial leverage accurately classified the SMEs as financially distressed or not. The results indicate the model can help identify distressed SMEs and assist policymakers, business owners, and consultants in developing strategies to support the sustainable growth of Thai SMEs and industries.
This document provides an introduction and overview of a study on the financial performance analysis of Thulasi Pharmacies India Pvt Ltd. It begins with an acknowledgement section and table of contents. Chapter 1 introduces the company, providing its profile, mission, vision, services offered, and details on camps and social activities. The introduction establishes Thulasi as a leading pharmacy chain in South India with over 50 branches and an annual turnover of over 130 crores.
Corporate Bridge Group provides financial training programs and e-learning services. It has two verticals: 1) Edu Corporate Bridge which deals with instructor-led and online training programs in financial courses and exam preparatory courses. 2) Elearning Labz which develops custom e-learning content and solutions. The management team includes Dheeraj Vaidya as CEO, S. Premananda as MD, and Kayideni Kholi. Business valuation is complex and involves various financial and non-financial factors. Valuations are performed for different purposes such as transactions, disputes, compliance, and planning. Direct valuation methods like discounted cash flow models provide an explicit equity value by discounting estimated future cash flows.
Decision makers often face powerful incentives to increase risk-taking on behalf of others either through bonus contracts or competitive relative performance contracts. Motivated by examples from the recent financial crisis, we conduct an experimental study of risk-taking on behalf of others using a large sample with subjects from all walks of life. We find that people respond to such incentives without much apparent concern for stakeholders. Responses are heterogeneous and mitigated by personality traits. The findings suggest that lack of concern for others’ risk exposure hardly requires “financial psychopaths” in order to flourish, but is diminished by social concerns. We believe the research reported here is the first to experimentally investigate the effects of incentives on risk-taking on behalf of others, and to do so on a large scale using a random sample of the general population.
By Ola Andersson, Håkan J. Holm, Jean-Robert Tyran and Erik Wengström
To read more research articles, please visit https://www.hhs.se/site
International Journal of Business and Management Invention (IJBMI) is an international journal intended for professionals and researchers in all fields of Business and Management. IJBMI publishes research articles and reviews within the whole field Business and Management, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online.
This master's thesis examines whether hedge fund performance is due to manager skill or luck. The document provides an abstract that summarizes the thesis. It applies a false discovery rate methodology to measure the proportion of lucky funds among hedge funds with statistically significant returns. The results show that hedge funds outperform due to skill more than luck, and underperform due to being unlucky rather than unskilled. Event driven, relative value, and multi-strategy funds have very low false discovery rates, implying manager skill. CTA, relative value, and short bias funds have higher false discovery rates when underperforming, implying more luck than skill. Small funds' outperformance is also more due to luck, while large funds' underperformance is
This document provides an overview of a research project on IPO pricing and growth rates implied in offer prices. It contains an introduction that discusses challenges in valuing IPO firms and approaches used. It also includes a literature review, research methodology with objectives and data sources, and a summary of key findings. The research derives implied cash flow growth rates from 184 European IPOs priced using discounted cash flow models. It finds the average IPO firm is expected to grow cash flows by 33% annually, though actual post-IPO growth rates are slightly positive. Forecast errors are associated with factors like market-to-book ratio and leverage, and negatively impact long-term stock returns.
The author conducted an experiment to analyze the disposition effect among 58 student subjects. In a simulated financial market, subjects decided whether to hold or sell assets over 20 periods as values fluctuated. The majority of subjects exhibited the disposition effect by selling winning assets too early and holding losing assets too long. Correlations between the disposition effect and variables like gender, age, major, and risk aversion were explored but inconclusive due to small sample sizes for some groups. Overall, the experiment provided evidence that the disposition effect is present among most investors.
This document summarizes a research paper that examines the relationship between product market strategies (innovator vs imitator), financing strategies (venture capital vs other), and product market outcomes. The authors find that innovator firms are more likely to obtain venture capital financing than imitator firms. They also find that venture capital is associated with a significantly faster time to market, especially for innovator firms. This suggests venture capital plays an important role in supporting innovative companies.
The reason why should undergo into the arbitrage trading is very simple and its because its risk free investment option. Though it contains certain risk if one fails to follow the protocol define for Arbitrage Trading. Usually Arbitrage is risk free until and unless there is no financial crises.
The document discusses factors that top private equity fund managers employ to consistently deliver high returns to investors. It summarizes responses from interviews with several top performers. Some common factors cited include proactively initiating opportunities rather than reacting to deals, having a rigorous process to assess management teams and deals, specializing in specific sectors, getting hands-on involved with portfolio companies, managing capital levels to avoid diminishing returns, carefully selecting sectors and markets, learning from proven solutions elsewhere, mitigating cultural and risk factors when operating internationally, and avoiding deals that exploit workers or harm the environment.
This document summarizes a research paper that aims to study how to create investment portfolios tailored to investors' risk profiles. The research objectives are to estimate investors' risk aversion, classify investors into categories based on risk tolerance, and profile each category. The researcher conducted a survey using a standard risk assessment tool and analyzed the results using statistical discrimination to validate the categories. The analysis achieved 98% accuracy in categorizing investors. The document outlines the research methodology, which involved classifying survey respondents using statistical analysis software to group investors and profile each group's risk-return characteristics.
This document discusses the risks associated with derivative transactions and the impact of regulation in limiting these risks. It analyzes price risk, default risk, and systemic risk in derivatives markets. The document argues that default risk has been exaggerated and misunderstood. It claims that systemic risk simply aggregates individual default risks, which are lower than assumed due to the nature of derivatives. The document also discusses "agency risk" arising from compensation structures that can encourage excessive risk taking.
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Risk in entrepreneurship
1. Strategic and Natural Risk in Entrepreneurship: An Experimental
Study
by John Morgan, Henrik Orzen, Martin Sefton, and Dana Sisak
Abstract
We report on the results of experiments where participants choose between entrepreneurship and
an outside option. Entrepreneurs enter a market and then make investment decisions to capture
value. Payoffs depend on both strategic risk (i.e. the investments of other entrepreneurs) and
natural risk (i.e. luck). Absent natural risk, participants endogenously sort themselves into
entrepreneurial types and safe types and both types earn the same expected payoff. Adding
natural risk fundamentally changes these conclusions: Here we observe excessive entry and
excessive investment so that entrepreneurs earn systematically less than the outside option.
These payoff differences persist even after many repetitions of the task. When the outside option
becomes risky, we observe a ―democratization‖ of entrepreneurship—the average individual
enters and exits several times over the course of the experiment. Exit is hastened by unlucky
outcomes: When realized payoffs fall below expected payoffs, subjects are more likely to exit
the market. On the other hand, skill at the investment task plays little role in determining the
likelihood of entrepreneurship. Finally, we examine an environment where an individual must
become an entrepreneur but chooses the stakes over which she will compete. Here, we observe
under-entry and under-investment in the high-stakes market, while the opposite is true in the low
stakes setting. As a result, returns to entrepreneurship are positive under high stakes and negative
under low stakes, even after subjects have considerable experience at the task.
Keywords: Entrepreneurship; entry; investment; experiment; risk
JEL Classification Numbers: C9; D43
Acknowledgements:
We thank Amy Nguyen-Chyung, participants at the 2009 Amsterdam Symposium on Behavioral
and Experimental Economics, the 2009 winter meetings of the Economic Science Association,
the 2010 Bay Area Experimental Economics Conference, and the University of East Anglia for
helpful comments and suggestions. We are indebted to Elke Renner for kindly sharing her data
on risk attitudes at the University of Nottingham. Financial support from the National Science
Foundation and the Swiss National Science Foundation is gratefully acknowledged.
Contact details: Morgan: University of California, Berkeley; Orzen: University of Mannheim,
Sefton: University of Nottingham; Sisak: Erasmus University Rotterdam. Please direct all
correspondence to John Morgan (morgan@haas.berkeley.edu).
2. 1
1. Introduction
Entrepreneurship is widely viewed as a fundamental driver of economic growth. Many countries
subsidize entrepreneurship, especially small-scale entrepreneurship. An important determinant of
entrepreneurial activity and performance are risks of various forms. Much of the literature on
entrepreneurship focuses on identifying characteristics and personality traits of would-be
entrepreneurs.1
Wu and Knott (2006) point out that, while entrepreneurs are conventionally risk-
averse in responding to demand uncertainty, they are risk-seeking (overconfident) about risks
related to their own ability. Along similar lines, we make a conceptual distinction between two
aspects of risk: The first, which we term strategic risk, is the risk associated with the fact that
payoffs are affected by the actions of other entrepreneurs and success or failure depends not only
on one‘s own entrepreneurial decisions, but also on the entrepreneurial decisions of others. It is
more difficult to succeed, and entrepreneurial returns are likely to be lower, in crowded markets
where competitors invest heavily. The second type of risk, which we term natural risk,
recognizes that entrepreneurial decisions alone do not determine financial outcomes. Luck also
plays a crucial role. Certainly, any aspiring entrepreneur opening up a new restaurant or coffee
shop realizes the role that fads, fashions, and other vicissitudes of fortune have on outcomes. In
this paper we study the impact of these different types of risk on entry into entrepreneurship and
subsequent performance.
Controlling for differences in strategic versus natural risk as well as the levels and riskiness of a
would-be entrepreneur‘s outside option is often difficult using field data. Thus, we use laboratory
experiments to examine how these factors influence entrepreneurship. The laboratory setting has
the advantage that we can control for these aspects of the market precisely. This allows us to
examine exactly how payoffs develop over time as well as between entrepreneurship and the
outside option. We can also examine the life-cycle of entrepreneurship decisions, i.e. we can see
how experience affects both entry and investment in entrepreneurial activity.
As far as we are aware, our study is one of the first to investigate different types of
entrepreneurial risks using the methodology of laboratory experiments.2
Previous experiments
have examined isolated aspects of the entrepreneur‘s choice. For example there is an extant
experimental literature on the decision to enter the market in the first place. In the standard entry
experiment, individuals simultaneously decide whether or not to enter and payoffs are
determined according to a schedule such that entry payoffs are decreasing in the number of
entrants. Equilibrium, which is typically in mixed strategies, suggests that entry will occur up to
the point where the expected profits of each entrant are equal to the value of the outside option.
The main finding in this literature is that theory models of entry perform extremely well in
characterizing behavior. Indeed, Nobel Laureate Daniel Kahneman famously quipped that theory
worked like ―magic‖ in predicting behavior in these games. Subsequent studies have found slight
tendencies toward excess entry when equilibrium predicts few entrants and under-entry when
1
See, for example, Parker (2009) who offers a survey as well as Caliendo and Kritikos (2012) for an overview of
recent developments in this literature.
2
The only other work of which we are aware is Camerer and Lovallo (1999). See Bohnet et al. (2008), as well as
Eckel and Wilson (2004), for comparisons of strategic and natural risk in trust settings.
3. 2
equilibrium predicts many entrants (see Camerer, 2003, for a review). Even so, the fundamental
prediction of competitive equilibrium—payoff equalization of entrants relative to the second best
alternative—continues to acquit itself nicely.
The central contribution of our paper is to study entry decisions in contexts that more closely
mimic those faced by entrepreneurs. Specifically, we modify the standard entry game as follows:
Subjects make real-time entry decisions where they observe the number of entrants currently in
the market. In our view, this is a closer match to the reality of entry than the usual model where
entry decisions are made simultaneously and where the key difficulty is to overcome the
coordination problem. Following the entry decision, entrants participate in a Tullock (lottery)
contest in which they simultaneously make investments in their businesses.3
Larger relative
investments produce a greater expected share of the profits in the industry; however success is by
no means guaranteed. In some treatments, luck plays a key role—here a single winner is
determined where the probability of winning is proportional to the relative investments made. In
other treatments, the link between payoffs and investment is more direct. Each entrant enjoys a
fraction of industry profits in proportion to their investments.
We also vary the nature of the outside option. In our baseline treatment, the outside option is
deterministic. But in practice the alternative to not entering a market may be inherently risky.
Indeed, often the second best use of an entrepreneur‘s time and talent is undertaking another,
different startup. To capture these differences, we conduct treatments where the payoff from the
outside option is stochastic and where the outside option represents an alternative entrepreneurial
opportunity.
Together, our treatments shed light on the role of strategic versus natural risk on entry decisions
and post-entry performance. They also allow for a more nuanced view of the fundamental
prediction of competitive equilibrium—the equalization of the value of inside and outside
options—when outside options have both environmental and strategic risk as well. Our
experiments are designed to come closer in bridging the gap between the simple and elegant
theory of equilibrium entry with the messy reality of real world entry decisions.
We begin by reproducing the results from standard entry experiments. Consistent with earlier
studies, we observe payoff equalization between entrepreneurship and the fixed outside option in
a setting where ―entrepreneurship‖ merely amounts to entering a market and where each
entrepreneur earns a fixed payoff which is declining in the number of entrants. Moreover,
specialization naturally arises: some individuals repeatedly choose the entrepreneurship path
while others follow a different path and select the outside option.
With that background in mind, our main findings are as follows:
1. The addition of strategic uncertainty alone does not alter these conclusions. While initially,
there is some excess entry and overly aggressive investments post-entry, this behavior
moderates with experience and leads to results in line with theory predictions. There is a
strong sorting of individuals into entrepreneurial and non-entrepreneurial types over time.
2. When both strategic and natural risks are present, the results change considerably. It is no
longer the case that the expected payoffs from entrepreneurship equalize with the outside
3
See Tullock (1980).
4. 3
option. Instead, entrepreneurs earn persistently lower returns than those choosing the outside
option. When would-be entrepreneurs are relatively inexperienced, there is both excess entry
and excess investment into the entrepreneurial activity, which results in very poor outcomes
compared to the outside option. With experience, there are fewer would-be entrepreneurs as
entry and investment rates decline. However, entry rates remain excessive and post-entry
behavior is still characterized by excess investment; hence entrepreneurial returns remain poor
compared to the fixed outside option.
3. The addition of natural risk ―democratizes‖ the prospects of being an entrepreneur. It is no
longer the case, even with experience, that individuals are strongly divided between
entrepreneurs and those choosing the outside option. Instead, there is constant churn as
subjects enter and exit the entrepreneurial role over time.
4. Adding natural risk to the outside option increases entry into the entrepreneurial activity but
reduces average post entry investments relative to the theory benchmark. This shift can be
explained in part by the nature of the return structure of entrepreneurship in the model. By
choosing to be an entrepreneur while making no post-entry investment, an individual can
avoid exposure to random payoffs. This choice comes at a cost however, as the would-be
entrepreneur has little chance of success in the market and gives up the positive returns from
the outside option in exchange for this ―safe harbor.‖
5. Adding both environmental and strategic risk to the outside option leads to the largest payoff
differential. In this treatment, subjects are presented with a choice of two entrepreneurial
opportunities, one with a large prize for success while the other with a more modest prize.
Here we find excess entry and investment in the activity with the modest prize and too little
entry and investment for the activity with the large prize. These differences remain even after
50 iterations of this set of choices.
Our findings 1 and 2 also shed light on the experimental literature on contests.4
The main finding
in this literature is that there is excess investment in these contests when competitors are
exogenously chosen. We allow for endogenous selection as well as varying the payoff structure
on the contest. A key finding is that, by eliminating natural risk from the contest, overinvestment
moderates significantly and indeed, payoffs are close to equilibrium predictions. This latter result
is at odds with Cason, et al. (2010). In a real effort experiment, they compare entry and
performance in a number adding task where the outside option consists of piece rate payments
and the inside option is either a shares or winner-take-all contest. They find that the shares
(proportional prize) contest leads to greater entry but no difference in individual performance
(the analog to investments in our setting) relative to a winner-take-all scheme. They suggest that
differential entry is the result of skill differences among individuals. Only high skilled
individuals compete in the winner-take-all contest whereas the shares contest attracts lower
skilled players. In our setting, all individuals have the same capabilities and costs to invest, thus
skill differences are less pronounced.
Our finding 5 relates to Mazzeo (2004) and Nguyen-Chyung (2011) who highlight how changes
in natural risk affect decisions about the type of entrepreneurship to pursue. In particular, we find
4
See for example Millner and Pratt (1989, 1991), Shogren and Baik (1991), Davis and Reilly (1998), Anderson and
Stafford (2003), Potters, de Vries and van Winden (1995), Fonseca (2009), Herrmann and Orzen (2008) or Morgan,
Orzen and Sefton (2011).
5. 4
that when the stakes from winning the market increase (i.e. entrepreneurship becomes riskier),
individuals scale back their entry and investment choices.
In certain respects, the behavior of our entrepreneurs is puzzling: Even after considerable
experience, the basic prediction of competitive equilibrium, the equalization of payoffs between
the inside and outside option, fails to hold. Interestingly, our results are consistent with the
seminal paper of Hamilton (2000) who attributes the negative returns to entrepreneurship to non-
pecuniary benefits from entrepreneurship. Our findings suggest other forces are at work as well:
non-pecuniary benefits are quite limited in our laboratory setting, yet payoff differences are still
large and persistent. In section 6, we explore a number of plausible amendments to the standard
model, including differing risk preferences, non-pecuniary motives, and loss aversion. We show
that none of these is sufficient to rationalize the constellation of findings we observe.
Regardless of the theoretical rationale, our results offer both a useful bridge toward seeing how
the structure of strategic and natural risk affect investment decisions as well as explaining key
factors that lead individuals to pursue entrepreneurship. They also present an important challenge
to existing theory.
The remainder of the paper proceeds as follows. Section 2 describes the experiment as well as
the rationale for each of the treatments and provides theoretical benchmarks. In section 3, we
present the results of the experiments in terms of entry and investment decisions. We pay
particular attention to the dynamics of these choices—as we will see, experience plays a key
role. In section 4, we examine key factors leading to the entrepreneurship path. These include
having good luck in past ventures, skill at the task, as well as demographic characteristics.
Owing to the failure of the payoff equalization hypothesis from competitive equilibrium, in
section 5, we consider various amendments to the theory that attempt to better match our
findings. All of these explanations prove extremely limited. Finally, section 6 concludes.
2. Experimental design, procedures and predictions
The experiment was conducted in multiple sessions at the University of Nottingham. Subjects
were recruited from a campus-wide distribution list of undergraduates, and no subject appeared
in more than one session.
At the beginning of each session, subjects were seated at computer terminals and given a set of
instructions which were read aloud.5
Any questions were dealt with in private by a monitor. No
communication between subjects was permitted, and all choices and information were
transmitted via the computer network. Before the decision-making part of the experiment began,
groups of six subjects were randomly formed and these remained fixed for the entire session.
Subjects knew this but did not know which of the other people in the room were in their group.
The decision-making part of the session then consisted of fifty rounds in which subjects could
earn points. At the end of the session, one of the 50 rounds was chosen at random and subjects
were paid in cash according to their point earnings from this selected round. An exchange rate of
£0.10 per point was applied. Sessions took between 50 and 75 minutes and earnings ranged
5
See Appendix A for the instructions used in the experiment.
6. 5
between zero and £28.50, averaging £10.81 (approximately US$20 at the time of the
experiment).
In each round, a subject was given 100 points and had to choose between two options, labeled
―A‖ and ―B‖, where ―A‖ corresponds to the outside option and ―B‖ corresponds to the decision
to become an entrepreneur. A timer was displayed on the subjects‘ screens, counting down 15
seconds. Subjects were informed that if they did not make a choice within the time limit the
computer would make a choice for them at random.6
During this time they could see how many
members of their group had chosen each option and how many had not yet chosen. Once a
subject had chosen either option A or B, he or she could not reverse that decision. The
information on other group members‘ decisions was anonymous, in the sense that subjects could
only see the number in each category and could not track who of the other group members were
in each category from round to round. We incorporated this design choice to minimize the ability
of subjects to build reputations.
The consequences from choosing A or B varied across our experimental treatments to reflect
entrepreneurship decisions with different types of risk and different outside options. In each case
the relevant consequences were carefully explained to subjects in a neutral language at the
beginning of the session.
Our Baseline treatment largely represents a replication of earlier laboratory experiments on entry
where no post-entry decisions have to be taken and each entrant receives a fixed payoff
decreasing in the number of entrants. In this treatment the outside option was worth 10 points
while each entrepreneur simply earned 50/n2
points (for simplicity we rounded the relevant
amounts to integers). Thus, if only one entrepreneur entered, that person received 50 points. If
two entrepreneurs entered, each of them earned 13 points. With three entrepreneurs each
received 6 points, and so on (the analogous amounts for four, five and six entrants were 3, 2 and
1 points). After each round everyone observes the payoffs of all group members.
Relative to earlier entry experiments the main variation in our Baseline treatment is in the timing
of moves. While the extant literature has subjects move simultaneously, we allow subjects to
enter in real time and observe the number of entrants up to that point.
What does theory predict for an entry game in continuous time? Assume that the players are all
rational payoff maximizers. A player can choose some point in time over a continuous time
interval to select either entrepreneurship or the outside option. At each point in time, the
choices made by all other agents are publicly observable. The earliest point at which a player can
take a decision is determined by her reaction time. Suppose that the reaction time of player is
private information and consists of a draw from a uniform distribution having support on ,
where is arbitrarily small and publicly known. Define to be the largest integer such that
where is the expected value of the outside option (in our Baseline treatment
and ). For generic parameter values, ; thus,
entrepreneurship yields a strictly higher expected return than the outside option (in our Baseline
treatment ). As a consequence, all players will choose to enter at the earliest possible
6
Once the timer had counted down from 15, the computer displayed ‗0‘ for one second before it made the random
choice. Thus, the effective time limit for subjects was in fact 16 seconds. About 2.5% of decisions were made by the
computer. Our results are unaffected by the inclusion or exclusion of this data.
7. 6
moment so long as the number of existing entrants is or lower. Thus, if we order the
agents from lowest to highest reaction times, then every agent will enter at time while
the remaining agents will choose not to become entrepreneurs.
In our Shares treatment, the outside option again yielded 10 points. In contrast, entrepreneurs
were paid according to their investment decisions. These investments decisions were made
simultaneously, after the entry phase and knowing the number of entrepreneurs in the market. An
entrepreneur investing (taken from her initial endowment) earned a share of a 50
point prize (rounded to integers). At the end of each round, all subjects in the group,
entrepreneurs or not, were informed about all payoffs, the investments of each entrepreneur and
also reminded of the fixed outside option.
The entrepreneurship subgame with entrepreneurs has a unique symmetric equilibrium
characterized by an investment of
Given this equilibrium investment behavior, the expected profits from entrepreneurship when
there are entrants is —the same as in the Baseline treatment. Consequently,
there is no predicted difference in the entry phases of the Shares and Baseline treatments. Two
entrepreneurs should enter and then earn 13 points each.
In the Winner-Take-All treatment entrepreneurs faced natural risk as well. That is, instead of
receiving a fraction of the prize, only a single entrepreneur was successful and received the entire
50 points. The probability of winning depended on the relative investments and was, in fact,
. To determine the winner a computerized animated lottery wheel was used (publicly). If
exactly one entrepreneur chose to enter, that person received the prize automatically without
having to invest. Non-entrepreneurs receive a fixed pay of 10 points as before. Again, everyone
received feedback after each round on the decisions of the others and the payoffs.
The equilibrium predictions do not change whether is entrepreneur ‘s share of the prize
or her chance of winning the prize. Of course, this relies on risk neutrality. If agents are risk
averse, then natural risk will play some role. In particular, the addition of natural risk should
increase the expected returns to entrepreneurship relative to the outside option. The theoretical
predictions also rely on the assumption that agents are identical. The presence of heterogeneities
in the preferences of agents will create a sorting role for entrepreneurship independent of
reaction time.
Our Coin Flip treatment introduces natural risk to the outside option. In this treatment, the
outside option involved a lottery in which the subject, with a 50-50 chance, either won 35 points
in addition to the initial endowment or lost 15 points. The outcome of this lottery was determined
and visualized with a computerized coin toss. In all other respects the Coin Flip and the Winner-
Take-All treatments were identical. Also as in the other treatments, all subjects observed both the
payoffs of the entrepreneurs and non-entrepreneurs (in this case: either +35 or –15). We picked
the two coin-flip outcomes in such a way that the expected value was 10 points, the value of the
outside option in the Winner-Take-All treatment, and that the variance of the coin-flip payoffs
was identical to the variance of payoffs in the contest option under equilibrium play (two
8. 7
entrants who each invest a quarter of the prize). Again, under the assumption that agents are
identical risk-neutral payoff maximizers there is no predicted difference between this and the
other treatments.
Finally, in the Dual Market treatment the outside option was another contest. Option B remained
as in the Winner-Take-All treatment, and the only difference between options A and B in the
Dual Market treatment was that the value of the option A prize was 200 points. This represents a
situation where the outside option of an entrepreneur is to become an entrepreneur in a different,
higher stakes, market. Suppose the symmetric equilibrium is played in both subgames. If
entrepreneurs choose the 50-point contest their expected payoff is points each, while the
expected payoff for the remaining entrepreneurs in the 200-point contest is
points. The expected payoffs are equalized, and equal to 12.5, when . With two
entrepreneurs in the 50-point contest and four in the 200-point contest switching to the other
contest would leave any entrepreneur worse off. Under any other distribution of entrepreneurs
between the two contests, however, switching is always payoff-improving for individuals in one
of the two groups.
Altogether 270 subjects participated in the experiment, 54 in each of the five treatments. We ran
a total of 15 sessions, three in each treatment, 18 subjects per session. Each session was
comprised of three groups of six subjects, yielding a total of 9 statistically independent
observations per treatment.7
Table 1 summarizes experimental design.
Table 1. Experimental treatments
Treatment
Outside option
(‘Option A’)
Entrepreneurship option
(‘Option B’)
Equilibrium number
of entrepreneurs
Experimental
groups
Baseline 10 points
Fixed payments declining in
the number of entrepreneurs
2 9
Shares 10 points
50-point proportional-shares
contest
2 9
Winner-Take-
All
10 points 50-point winner-take-all contest 2 9
Coin Flip
50-50 chance of
+35 or –15 points
50-point winner-take-all contest 2 9
Dual Market
200-point winner-
take-all contest
50-point winner-take-all contest 2 9
3. Results
We begin by presenting the results from our simplest treatment, Baseline, which replicates
existing studies. We then proceed to the results from our other treatments, in which entrepreneurs
compete with one another after entering, to show how enriching the post-entry decision
environment with strategic and natural risk affects entry and equilibration.
7
In one of our Dual Market sessions a technical problem resulted in our losing the last three rounds of data from one
group and the last two rounds of data from the other two groups.
9. 8
3.1 The Baseline treatment
The main prediction for the Baseline treatment is that subjects becoming entrepreneurs should
earn slightly higher profits than those remaining on the sidelines and, this being the case,
subjects should rush into entrepreneurship at first opportunity.
Figure 1 displays the average difference between the payoffs from entering and the outside
option over the course of the experiment, in blocks of ten rounds. While the sharp prediction that
entrepreneurs earn more than non-entrepreneurs is not borne out, the weaker form of the
competitive equilibrium hypothesis, that there should be little difference in payoffs between the
two options, is supported, at least in later rounds of the experiment.8
Figure 1. Payoff differentials in the Baseline treatment
In this treatment, payoffs to entrepreneurship purely depend on the number of entrants—post-
entry decision making is absent. This eliminates both natural and strategic risk as a post-entry
consideration. Moreover, since entry occurs in continuous time, strategic risk is quite limited in
the overall game as well. Recall that the equilibrium number of entrepreneurs is 2. As Figure 2
shows, entry rates in Baseline are often higher than that in the early rounds of the experiment.
Towards the end, however, the typical outcome is indeed a market with two entrepreneurs.
8
Focusing on rounds 1-10, we reject the null hypothesis of payoff equalization between inside and outside option
(p=0.004) using a nonparametric two-sided one-sample Fisher-Pitman test based on the average payoff differentials
from our nine independent experimental groups. For rounds 41-50 we no longer reject the payoff equalization
hypothesis (p=0.332). Note that we will use the same test procedure throughout this section when we statistically
compare observed behavior and theoretical benchmarks.
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10. 9
Figure 2. Distribution of entrants in early and late rounds
Rounds 1-10
Baseline Shares Winner-Take-All Coin Flip Dual Market
N u m b e r o f e n t r a n t s
Rounds 41-50
Baseline Shares Winner-Take-All Coin Flip Dual Market
N u m b e r o f e n t r a n t s
One novel prediction of our experimental design concerns the timing of entry—theory predicts
that entry should occur quickly. Our results are consistent with this prediction. Across all
Baseline entry games the median time of the first entrant was 0.37 seconds (0.31 seconds in the
last ten rounds), and the median delay between the first and second entry was 0.3 seconds (0.25
seconds in the last ten rounds). As a result, entry games effectively ended quickly. Across all
fifty rounds, the final number of entrants was determined within a second in 49% of all entry
games. In 68% the final number was determined within the first two seconds. By the last ten
rounds subjects had become even faster and 63% [86%] of games were completed after only one
[two] second[s].
Our interpretation of these results is that subjects recognized the potential three-point advantage
of being one of two entrants. Since all players have the same opportunity to enter, the identities
of the entrants were determined by a race, which sometimes—mostly in early rounds—resulted
in coordination failure such that more than two players entered. Thus, the entrepreneurial rents
associated with two entrants were effectively competed away in this race, leaving the returns to
entrepreneurship even closer to the outside option.
3.2 Strategic risk: The Shares treatment
Compared to Baseline, the Shares treatment adds post entry decision making and, consequently,
strategic risk, to payoff calculations. There is, however, no random element to payoffs—an
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11. 10
entrepreneur earns a fraction of the value of the market equivalent to her investment relative to
the sum of investments of all entrepreneurs.
Figure 3 depicts the average payoff difference from pursuing entrepreneurship relative to the
outside option over the course of the experiment. As a reference, we also include the payoff
differential under the Baseline treatment, where strategic risk is absent. As the figure highlights,
the introduction of strategic risk turns the payoffs from entrepreneurship sharply negative in the
early rounds. With experience, the payoff differential narrows such that, by the end of the
experiment, the returns to entrepreneurship are about the same as the outside option.9
Figure 3. Payoff differentials in the Shares treatment
In the Shares treatment the returns to entrepreneurship are determined by both the number of
entrants and the degree of competition in the investment stage. As Figure 2 reveals, entry rates
are similar to those in the Baseline treatment. Thus, the addition of strategic risk does not lead to
wholesale changes in entry behavior. The more important factor explaining the low returns to
entrepreneurship in the earlier rounds of the Shares treatment is investment behavior. Table 2
shows a measure of investment behavior for each treatment, averaged over all rounds and over
early and late rounds separately. Normalized investment is defined as investment minus the prize
per investor ( ). This measure offers two useful benchmarks. First, when the normalized
investment averaged across all entrants is positive, then entrepreneurs are investing amounts that,
in total, exceed the value of the prize. In other words, there are negative returns to
entrepreneurship. Second, when the normalized investment averaged across entrants is −10, then
entrepreneurs earn the same expected return as the outside option. For future reference, when we
refer to investment, we mean normalized investment.
9
As in the Baseline treatment we reject the null hypothesis of payoff equalization between inside and outside option
for rounds 1-10 (p=0.004) but fail to reject it for rounds 41-50 (p=0.832).
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12. 11
Table 2: Normalized investments (Investment – Prize/Entrants)*
Treatment All rounds Rounds 1-10 Rounds 41-50
Baseline - - -
Shares −4.1 (15.2) 5.0 (23.2) −9.5 (10.9)
Winner-Take-All −.4 (16.9) 11.2 (23.4) −4.4 (11.4)
Coin Flip −2.4 (13.2) 4.8 (20.9) −4.6 (9.5)
Dual Market – Small −3.1 (16.7) 5.8 (25.2) −5.8 (10.7)
Dual Market – Large −17.3 (30.6) −11.4 (29.2) −20.8 (31.8)
*
The number in brackets is the standard deviation. Entries for the Baseline treatment are left blank since there is no
investment activity for this treatment.
As Table 2 shows, normalized investments in Shares decline significantly over the course of the
experiment. In rounds 1-10, total investments exceed the value of the market, so the returns to
entrepreneurship are negative. Indeed, conditional on entering, a would-be entrepreneur is better
off investing nothing rather than making the average investment. With experience, entrepreneurs
become savvier investors. By rounds 41-50, investments are only slightly above the breakeven
level. Thus, investments converge (from above) to breakeven levels.
To summarize, the additional complexity of strategic risk initially leads to poor returns from
entrepreneurship. Returns are depressed owing mostly to overinvestment rather than excess entry
on the part of entrepreneurs. However, as subjects gain experience, these differences are erased.
Our laboratory experiments are analogous to findings in the market for realtors. There are low
barriers to entry in this business; thus one would expect payoffs to equalize between
entrepreneurship and the outside option.10
Moreover, success in this industry largely depends on
the size of the market, the number of competitors, and the effort invested in pursuing leads.
Strategic risk is present in that the returns from invested effort depend on the number of other
realtors operating in the same geographic area and their level of effort investment. Jud and
Winkler (1998), for example, show that the returns to entrepreneurship are similar to the other
opportunities available to those pursuing this profession.
3.3 Natural risk: The Winner-Take-All treatment
Next, we examine how introducing environmental uncertainty into entrepreneurship affects entry
and investment behavior of our entrepreneurs. In our Winner-Take-All treatment, the
entrepreneurs again simultaneously choose investments. But now only one of the entrepreneurs
is awarded a prize, with the winner being determined by a lottery in which each entrant‘s
probability of winning equals his or her investment as a fraction of total investments. Under risk
neutrality, the Nash equilibrium of this -player contest results in the same expected payoff to an
entrant as in the Baseline and Shares treatments.
10
To become a salesperson requires passing a test. Becoming a broker is slightly more involved as it requires an
individual to have a requisite amount of experience and pass an additional test. There are no formal education or
other hurdles and pass rates on tests tend to be quite high.
13. 12
Figure 4. Payoff differentials in the Winner-Take-All treatment
Figure 4 displays the average payoff differential under the Winner-Take-All scheme compared to
Baseline and Shares. Initially, the returns to entrepreneurship are substantially negative. With
experience, these returns improve but even in the later rounds of the experiment, the presence of
both strategic and natural risk leads to payoffs from entrepreneurship that continue to lag those
from the outside option. In other words, the prediction that entry and investing will occur up to
the point where the payoffs from the two activities equalize is simply not supported by the data.
The null hypothesis of payoff equalization between inside and outside option for rounds 41-50 is
rejected in Winner-Take-All (p = 0.051).11
The poor returns from entrepreneurship are, in part, driven by excess entry. Returning to Figure
2, the median number of entrants is three initially and even in the last ten rounds of the
experiment there are a substantial number of markets where more than two subjects enter the
market. Entry in the Winner-Take-All setting systematically exceeds that of the setting without
natural risk: in Shares the probability of observing more than two entrants in the last ten rounds
is 0.167, while in Winner-Take-All it is 0.433. This difference is statistically significant (p-value
= 0.031).12
It appears that natural risk makes the entrepreneurship path more enticing for subjects.
Presumably, subjects are lured by the possibility of winning the entire market. What is more
11
Note that the returns from the outside option are more than twice as high as those from entrepreneurship in the last
10 rounds (and almost 8 times as high across all 50 rounds). The outside option is a significantly better investment.
Moreover, it is risk free whereas the payoffs from entrepreneurship are highly variable. Thus, any risk-adjusted
measure of returns will produce an even wider gap in favor of the outside option.
12
This p-value stems from a nonparametric two-sided two-sample Fisher-Pitman test applied at the level of
statistically independent groups. We will use this test again whenever we statistically compare observed behavior
between two treatments.
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14. 13
surprising is that, despite the negative experience of, on average, losing money by choosing the
entrepreneurship path, this lure remains potent even after subjects have considerable experience.
While under the Baseline treatment, subjects were anxious to become entrepreneurs at the
earliest opportunity, the presence of natural risk leads subjects to pause before making the
entrepreneurship ―leap‖. Figure 5 displays the timing of the first entry compared to Baseline.
Notice that there is, on average, a considerable delay before even the first subject decides to
become an entrepreneur. Furthermore, the second entrant takes considerably longer to
contemplate the strategic environment before committing to enter in the Winner-Take-All
treatment. Thus, excess entry is not due to lemming-like herding on the part of subjects seeking
to pile into what they might consider a good but perishable opportunity (entrepreneurship); rather
would-be entrepreneurs seem to consider the pros and cons of entry before committing.
Figure 5. Histograms of first and second entry times (based on last ten rounds)
First entry Second entry
Seconds Seconds
While the negative returns to entrepreneurship are partially due to excess entry, excess
investment also plays an important role. As Table 2 highlights, there is extreme overinvestment
in the early rounds and although entrepreneurs learn to moderate their investments towards the
end of the experiment these amounts still exceed the breakeven threshold. Normalized
investments in rounds 41-50 are also significantly higher in Winner-Take-All than in Shares (p-
value = 0.046). Thus, the addition of natural risk to the entrepreneurship path clearly drives
increased investment activity.
To summarize, the presence of natural risk creates an entrepreneurship ―trap‖—subjects are lured
in by the prospect of securing the whole market. This leads to excess entry and excess
investment, even after considerable experience with the game. In a sense, hope springs eternal
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15. 14
for entrepreneurs seeking to win the market. As a result, the returns from entrepreneurship
remain consistently below those of the outside option.
Our results for the Winner-Take-All treatment are reminiscent of the entrepreneurial decision to
open a restaurant. It is well-known that most entrants into restauranteering result in failure
(Bloomberg BusinessWeek, May 19, 2003). Moreover, natural risk plays a key role in the
success or failure of a restaurant. Some restaurants strike it lucky and end up becoming ―hot‖
places to eat while most restaurants struggle despite considerable investment and effort on the
part of their owners. Indeed, casual empiricism suggests that hot restaurants are often not the best
in terms of the quality of the food, ambiance, or service. Despite the high risk of failure, there is
no shortage of new entrepreneurs entering the market each year, convinced that they have found
the correct ―recipe‖ of luck and skill to produce a positive outcome.
3.4 Introducing natural risk into the outside option: The Coin Flip treatment
While we have modeled the outside option as fixed thus far, in reality alternatives to the
entrepreneurship path offer their own set of risks and rewards. Often, these will be natural rather
than strategic risks as the usual alternative to entrepreneurship is becoming a worker of some
kind where investment and other strategic decisions occur at the firm level rather than the
individual employee level. Our Coin Flip treatment investigates how entrepreneurship decisions
change when then the outside option exhibits natural risk. Note also that if one wanted to
rationalize our Winner-Take-All results by appealing to risk preferences, one should expect that
the (expected) payoffs from the two activities be approximately equal in Coin Flip since the
riskiness of the two activities is approximately equal.13
Figure 6 displays the average payoff differential under the two activities. For comparison, we
include the payoff differential from the Winner-Take-All treatment; thus, the difference between
the two represents the pure effect of adding natural risk to the outside option. As the figure
shows, the payoff differentials in the two treatments are very similar. Initially, the risky outside
option narrows the payoff differential slightly. However, over the course of the experiment the
returns from entrepreneurship in Coin Flip and Winner-Take-All become nearly
indistinguishable. Once again, the null hypothesis of payoff equalization is rejected (p-value =
0.004 based on rounds 41-50).
While on the surface there is hardly any change, the entrepreneurial decisions that drive the
payoff differentials in Coin Flip are indeed very different from the decisions in the Winner-Take-
All treatment. First, as shown in Figure 2, there is much more entry. The mean number of
entrants in the last ten rounds of Coin Flip is 3.9 compared with 2.5 in the Winner-Take-All
treatment. The difference is statistically significant (p-value < 0.001). Unlike in any of the
previous treatments, entry increases over time, despite the persistently low returns from
entrepreneurship.
13
Recall that we calibrated the risk from the coin flip with the equilibrium risk from entrepreneurship. Furthermore,
the average standard deviation of entrepreneurial earnings in the last ten rounds of Winner-Take-All (25.02 points) is
almost identical to the standard deviation of coin flip earnings (25 points).
16. 15
Figure 6. Payoff differentials in the Coin Flip treatment
Second, the introduction of natural risk to the outside option changes investment decisions. A
substantial number of individuals enter the market and subsequently make very low
investments.14
In the Coin Flip data this occurs about 44% of the time while the corresponding
figure in the Winner-Take-All treatment is only 15%. By adopting a strategy of entering and then
bidding low, subjects can avoid natural risk but at the cost of forgoing the expected return from
the outside option. In effect, this is a second, risk-free outside option and many subjects choose
this option.
How does accounting for different motivations to enter affect our results? If, in both treatments,
we count as entrepreneurs only those who enter and invest more than five tokens, the difference
in the number of entrepreneurs between the Coin Flip and the Winner-Take-All treatments is no
longer statistically significant (p-value = 0.309 based on rounds 41-50). Similarly, there is also
no significant difference in the normalized investments observed in Coin Flip and Winner-Take-
All.
To sum up, we find that a risky outside option increases entry while reducing investment.
However, this is largely driven by individuals who seek to avoid risks and pursue a strategy of
entering and investing little. Others behave very much like subjects in the Winner-Take-All
treatment. In this respect our findings are closely related to Wu and Knott (2006). They argue
that entrepreneurs are risk-averse with respect to natural risks (in their case demand uncertainty)
while they are seemingly risk-seeking, or overconfident, with respect to ability uncertainty.
14
We consider a low investment to be any amount equal to five tokens or fewer.
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The outside option in the Coin Flip treatment could for example represent a situation where a
currently unemployed individual decides whether to try to join the labor pool, which is subject to
natural risk in that the individual may land either a good or a bad job. Our findings suggest that
when the outside option is sufficiently risky, individuals will flock into self-employment, and
some of them will choose a business strategy which will allow them only a very modest payoff
but at a low risk.
The next treatment examines a more extreme version of this situation. Here, employment ceases
to be an option at all. Instead, individuals are required to pursue entrepreneurship but can control
the stakes of the venture.
3.5 Introducing strategic risk into the outside option: The Dual Market treatment
In the Dual Market treatment the outside option (―option A‖) is itself a strategic situation
requiring investments to secure a winner take all prize. The post-entry decisions from selecting
this option are identical to those under the inside option. The only difference is that the winning
entrepreneur is rewarded with 200 points under option A compared with 50 points under option
B, as in the Winner-Take-All and the Coin Flip treatments. The expected payoff from the outside
option now contains both strategic and natural risk.
Assuming equilibrium investments, payoffs will be equalized when two players compete for the
small prize while the remaining four players compete for the large reward. In this case, the
expected payoff from the inside option is the same as in the other treatments. Thus, the standard
equilibrium predictions under the assumption of risk neutrality are identical to those in the other
treatments—the same number of players select the inside option, make the same investments,
and enjoy the same expected return as in Winner-Take-All, Coin Flip, Shares and Baseline.
Figure 7 plots the payoff differential between the two markets over the course of the experiment.
For reference, we include the payoff differentials from the other treatments as well. The figure is
striking in two regards. First, the payoff differentials are extremely pronounced—selecting the
inside option produces substantially lower returns than choosing the outside option. Second,
experience does not produce convergence over time. Even in the last 10 rounds of the
experiment, the null hypothesis of payoff equalization is strongly rejected (p-value = 0.008).
Returning to Figure 2, we see that, although in the early rounds of the experiment entry into the
50-point prize market appears to be somewhat lower than in the Winner-Take-All treatment,
entry rates in Dual Market increase and by the end are very similar to those in the Winner-Take-
All treatment.15
Thus, as in Winner-Take-All, there is too much entry into the market with the 50-
point reward relative to the equilibrium prediction. The flipside here, of course, is that the
number of entrepreneurs in the 200-point prize contest is lower than predicted.
15
In fact, the median and modal number of entrants is three in rounds 41-50 as compared to two in the Winner-Take-
All treatment. However, there is no significant difference in the mean number of entrants. Also, the increase in entry
in the Dual Market treatment is not statistically significant.
18. 17
Figure 7. Payoff differentials in the Dual Market treatment
As Table 2 shows, investment is initially more modest in the Dual Market treatment (small prize)
compared to Winner-Take-All. Over the course of the experiment, however, these investments
move closer together and a test does not indicate a statistically significant difference at
conventional levels.
Since both entry and investment are similar to Winner-Take-All, what accounts for the much
more pronounced payoff differences in the Dual Market treatment? The answer turns on
entrepreneurial behavior in the market with the larger prize. Normalized investments here are
substantially lower than in any of the other treatments. Recall the breakeven level of investment
against a fixed outside option, −10. Relative to this benchmark, we now observe significant
underinvestment, unlike in any of the preceding treatments. Also, normalized investments in the
large-prize market are significantly lower than in the small-prize market. We reject the null
hypothesis of no difference (Fisher-Pitman test, p = 0.008).
Thus, entrepreneurs pursuing the large prize market enjoy substantial positive returns. Moreover,
these returns are not competed away as subjects gain experience. Over the last 10 rounds of the
experiment, entrepreneurs entering this market earned about 20.8 points. Of course, to capture
these returns, individuals had to be willing to expose themselves to substantial risk. The absolute
investments required to compete are larger than in the market with the smaller reward, and the
outcomes more uncertain as a greater number of entrepreneurs compete.
The results are suggestive of the difference in returns to high versus low stakes entrepreneurship
activities. While realtors and restauranteurs earn little from their entrepreneurship efforts (small
business owners earn about 35% less than outside option (Hamilton, 2000), their downside
exposure is also limited. For Silicon Valley startups however, the downside is considerably
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19. 18
greater; however the rewards from this activity more than compensate. Cochrane (2005) analyzes
the risk and return of venture capital investments and finds arithmetic alphas, a risk-adjusted
measure of the return on investment, of 462% on average. Even controlling for selection bias
(valuations are typically observed when a firm goes public, receives new financing or is
acquired) his estimate of the arithmetic alpha still looms large at 32%. One could, perhaps, argue
that there is a shortage of individuals with good ideas for startups and hence the rewards to this
activity will not be competed away; however, the plethora of entrepreneurship activity during the
dot-com bubble casts some doubt that this scarcity provides an effective barrier to entry.
4. Who becomes an entrepreneur?
We previously saw that the types of risk associated with the inside and outside options affect the
prevalence of entrepreneurship as well as the investment made in success. To help understand
these patterns, it seems important to identify key characteristics (if they exist) that determine
who chooses the entrepreneurial path.
But even this question is premature since it presupposes that individuals sort themselves into
entrepreneurial and non-entrepreneurial types. Our experiment offers an ideal setting for
examining the degree to which individuals sort themselves into a particular path as they gain
experience as well as the degree to which the types of risk faced by individuals influence sorting.
To examine this, Table 3 displays Gini coefficients of entrepreneurship—the fraction of entry
decisions accounted for by each of the subjects. As with a standard Gini coefficient, a value
equal to zero indicates equality—all subjects are equally likely to pursue each path. A coefficient
equal to one denotes the opposite extreme—subjects always choose a single path to the exclusion
of the other. The three columns of the table show how this measure of specialization varies over
the course of the experiment.
As the table shows, experience tends to lead subjects to more defined roles. In every treatment,
the Gini coefficient associated with the first 10 rounds of the experiment is lower than for the last
10 rounds.16
This suggests that, at least initially, subjects experiment with different roles before
determining the one that is most suitable. However, even with experience, one does not see
complete specialization. Subjects continue to switch roles, to some extent, and this varies with
the treatment.
Table 3: Gini Coefficients17
Treatment All 1-10 41-50
Baseline .61 .51 .83
Shares .61 .54 .81
Winner-Take-All .52 .51 .66
Coin Flip .42 .44 .49
Dual Market .48 .47 .63
16
Formally, a permutation test reveals that the difference in Gini coefficients between the first and last 10 rounds of
the experiment are all significant at the 5% level save for Coin Flip, where there is no significant difference.
17
While the Gini coefficients for the Coin Flip treatment are reported in terms of entry rather than entrepreneurship
decisions, the quantitative values for this treatment are unchanged if we use the entrepreneurship instead of entry.
20. 19
For experienced subjects, one can roughly group specialization into three tiers. Treatments where
natural risk is absent (Baseline and Shares) have the highest level of specialization. The Dual
Market and Winner-Take-All treatments represent an intermediate level of specialization while
the Coin Flip treatment displays the lowest level of sorting. Formal statistical tests are supportive
of this division as well. Treating each group as the unit of observation and performing a
permutation test for rounds 41-50 of each treatment reveals that Baseline and Shares are
statistically indistinguishable while both are different from Winner-Take-All and Dual Market at
the 10% level. Similarly Dual Market and Winner-Take-All are statistically indistinguishable but
Coin Flip differs from Winner-Take-All at the 10% significance level.
Taken together, Table 3 suggests that the presence of natural risk substantially reduces sorting.
One mechanism by which this might occur is through feedback with good or bad luck in the
market. For instance, an entrepreneur who has the good fortune of winning the market might
choose to remain on this path while this same entrepreneur who experiences bad luck might opt
to leave. Departures by these unlucky individuals then represent openings for previous non-
entrepreneurs to enter given the apparently reduced competition in the market. That is, if subjects
respond strongly to luck, then this offers a mechanism whereby one would see ―churn‖ in the
choice of entrepreneurship even for experienced subjects.
Despite the fact that natural risk reduces specialization, the Gini coefficients in Table 3 still
suggest a fairly high degree of specialization. With experience, subjects are taking on more
specialized roles though there is some degree of malleability. This suggests that it is fruitful to
examine the key drivers of entrepreneurship. The extant literature on the topic highlights a
number of forces that lead individuals to opt for this path.
One such force is skill. Individuals displaying a high degree of skill at the particular task are
more likely to become entrepreneurs in that task so as to recoup a larger fraction of the returns
from that effort. For example, Nguyen-Chyung (2011) shows that realtors who are more
successful in making sales are more likely to pursue entrepreneurship than those that are less
successful. To capture the notion of skill in our study, we calculate the expected payoffs from
entrepreneurship over the first half of the experiment for each individual. The use of expectations
removes the luck element from decisions. This provides us with a measure of the skill of each
individual.
Table 4 reports the results of a probit analysis where we regress entry on various predictors of
entrepreneurship for each treatment. In the column labeled ―skill‖ we regress over the last half of
the experiment (since we used the data from the first half of the experiment to construct the skill
measure). The remaining columns use data from all rounds. To account for the non-
independence of choices by the same subject over time, we cluster standard errors by subject.
Finally, to account for learning, we include a linear trend term. The coefficients are reported in
terms of marginal changes rather than as the raw output of the probit.
21. 20
Table 4: Skill, Luck and Selection into Entrepreneurship
Treatment Skill Luck Numerate Business/Econ Female
Baseline .136*** --- .17** .20** −.05
Shares .019** --- .18** .10 .02
Winner-Take-All .006* .005*** −.11 −.18** .07
Coin Flip .005 .003*** .06 .03 −.05
Dual Market .004 .002** −.13** −.14* −.05
The first column in Table 4 examines how skill impacts entrepreneurship. Consistent with the
extant literature, greater skill at the task does indeed predict a greater likelihood of pursuing
entrepreneurship. The regression coefficients can be interpreted as the percentage increase in the
probability of becoming an entrepreneur given a one unit increase in skill. To put this increase in
skill in perspective, the interquartile range of the skill measure is about 10 units. Thus, a subject
at the top of this range is about 136% more likely to enter in the Baseline treatment compared to
a subject at the bottom of the range.
As Table 4 reveals, the addition of both types of risk leads to a reduction in the influence of skill
on the path chosen. Comparing the coefficients in Baseline versus Shares, one sees that the
introduction of strategic risk leads to a sevenfold drop in the influence of skill on entry.
Comparing Shares to Winner-Take-All shows that the further addition of natural risk on top of
strategic risk reduces the influence of skill by a further threefold. Nonetheless, skill still
matters—a highly skilled (75th
percentile) subject is about 6% more likely to enter compared to a
less skilled (25th
percentile) subject.
The addition of various kinds of risk in the outside option renders the skill measure insignificant.
For the case of the Dual Market, the measure is inherently problematic. Perhaps skilled
individuals should try their luck at the market with the larger reward. Moreover, the measure
only accounts for performance in the small contest, but clearly a correct measure of skill is one
that takes account of overall investment skill. Correcting for this by measuring overall skill
yields a coefficient of -0.01***. Despite the switch in the sign of the coefficient, skill plays the
expected role—more skilled subjects are more likely to pursue the market with the larger reward
by about 1% per unit of skill.
Earlier, we speculated that luck might play an important role in explaining the lower levels of
specialization we observe when natural risk is present. The second column of Table 4
investigates this possibility. The variable ―luck‖ measures the difference between the realized
payoff and the expected payoff.18
Since luck is absent from the Baseline and Shares treatments,
we do not report any coefficients. As the table shows, luck plays an important role in
determining the choice of paths. Since there is a 50 point swing between being lucky and
unlucky in the market, the coefficient on the Winner-Take-All treatment shows that lucky
entrepreneurs are about 25% more likely to enter in the next period compared to unlucky
competitors.
One might expect to see the same effect based on the luck of the coin for subjects who opted not
to enter in the Coin Flip treatment. If we construct a similar measure of luck, the resulting
18
Obviously, we only have such a measure for the subset of the data where a given subject pursued entrepreneurship
in the previous round.
22. 21
regression coefficient 0.001 indicating slight persistence based on luck; however the coefficient
does not come close to statistical significance. The difference in the reaction to luck in the
market versus the coin flip is suggestive of the familiar ―illusion of control‖ biases observed in
the psychology literature. In entrepreneurship, lucky or unlucky outcomes are attributed to skill
and require an appropriate reevaluation of one‘s strategy whereas in the coin flip, subjects
correctly attribute luck as being purely a force of nature, hence requiring no such reevaluation.
A person‘s background and training are also thought to give rise to choosing the path to
entrepreneurship. Indeed, many business schools offer courses or even whole programs devoted
to entrepreneurship on the theory that this will both lead people to choose this path and help
them to be more effective at it. In our experiment, investment skill is critical to the success or
failure of entrepreneurs. Obviously, familiarity with probabilities as well as comfort in working
with numbers would seem to be pre-requisites for someone to choose to pursue entrepreneurship.
To investigate this possibility, we collected demographic data about the major field of studies of
each of our subjects. We then divided these into ―numerate‖ fields, areas of study where
mathematics or statistics play an important role, and non-numerate fields. For example, we coded
Physics as a numerate field while we coded English as non-numerate. We constructed a similar
measure for whether a subject had business or economics training. Appendix B contains the
complete list of major fields of subjects in our study as well as how we coded them with respect
to these measures.
When natural risk is absent, our measures go in the expected direction—individuals in numerate
majors and individuals with business/economics training are more likely to choose the
entrepreneurship path. However, the introduction of natural risk substantially changes the
findings. In the Dual Market, numerate and business/econ trained are more likely to choose the
high stakes contest, which also turns out to be more profitable. For Winner-Take-All, such
individuals are less likely to pursue entrepreneurship. Since entrepreneurship produces such poor
returns, perhaps the main benefit of this training is simply recognizing this path for the poor
choice that it turns out to be. For the Coin Flip treatment, there is, essentially, no effect.
Risk preferences are also thought to play a key role in the decision to become an entrepreneur. In
particular, a number of studies (e.g. Niederle and Vesterlund (2007)) have shown that women, in
particular, shy away from competitive paths. When faced with a choice between piece rate
compensation and compensation based on relative performance, Niederle and Vesterlund found
that women overwhelmingly preferred the former even when they were equally skilled with men.
They argue that, since many studies have shown women to be more risk averse than men, this
choice is a manifestation of risk preferences. In Column 6 of Table 4, we study entry choices by
gender. As the table shows, we find no significant differences in entry across genders. Moreover,
in Shares, Winner-Take-All, and Dual Market, the coefficient estimates suggest that women
choose the riskier option. Indeed, simply looking at raw statistics of choices, women are more
likely than men to select the risky option overall. Moreover, unlike the previous real effort
studies, women are significantly worse at investing than men. If we compare payoffs from
entrants by gender, we find that women score about 2.75 points lower than men, a difference that
is significant at the 1% level. In short, we find little evidence that women are inhibited from
pursuing entrepreneurship despite being objectively worse at it.
23. 22
5. Post hoc rationalizations
The equilibrium notion that free entry will equalize payoffs between the inside and outside
options is a powerful tool of economic analysis. Entry experiments, where both strategic and
natural risk is absent, mainly confirm the force of this reasoning. Our findings, however, cast
considerable doubt on the force of payoff equalization in more complex settings. Payoffs
continue to equalize with the addition of strategic risk, but the combination of strategic and
natural risk leads to large and persistent gaps between the average payoffs from entrepreneurship
versus the outside option.
One obvious reason why the expected payoffs from the two activities might differ is risk
preferences. If subjects are generally risk averse then they should demand a premium for
exposing themselves to the luck element of entrepreneurship. However, this is not at all what we
see in the Winner-Take-All treatment—relative to the fixed outside option the return from
entrepreneurship carries a negative risk premium. To explain this pattern using risk preferences,
we are forced to conclude that entrants are risk loving. Moreover, since between one-third and
one-half of subjects choose the entrepreneurship path in a given round of the game, this then
implies that one-third to one-half of our subject pool must be risk loving.
How reasonable is this conclusion? Certainly, such a large fraction of risk-loving individuals is
inconsistent with the extant experimental literature measuring risk preferences. For instance, in
the seminal Holt and Laury (2002) paper on the topic, they found that fewer than 10% of subjects
can be characterized as risk loving to any degree. Replications of their work report similarly low
levels of risk loving behavior. Indeed, our subjects are drawn from the same subject pool as those
of Humphrey and Renner (2011), who conduct a Holt-Laury risk elicitation task and find that
only 9 out of 134 subjects in their experiment (7%) can be classified as risk-loving.
The results of the Coin Flip treatment also run contrary to a risk preference explanation. The
Coin Flip treatment was parameterized so that the risk of the outside option is similar to the risk
of entrepreneurship. Recall that, to rationalize the results of the winner-take-all treatment, one
needed to assume that about half the subjects are risk loving and half risk averse. In the Coin
Flip treatment, the risk averters should switch from employment to entrepreneurship, where they
can avoid risk by betting little or nothing. However, since about two-thirds of subjects chose
entrepreneurship under this treatment, the marginal entrepreneur must be risk-loving. Moreover,
since the risks of employment and entrepreneurship are similar, the returns must likewise be
similar.19
But instead we find that entrepreneurship produces significantly lower returns.
Similar considerations show that loss-aversion can explain only some of our findings. Morgan
and Sisak (2012) show that loss aversion can rationalize some aspects of the data but cannot
explain one of the most basic facts from the data—that subjects earn negative returns from
entrepreneurship in the Winner-Take-All treatment. This stems from the fact that, in many
respects, loss averse and risk averse behavior is similar in this setting; hence, loss-averse subjects
require a premium to choose the entrepreneurship path.
19
Indeed, the sample standard deviation is lower under entrepreneurship than under employment in the coin flip
treatment. Thus, the marginal risk-loving entrepreneur must be compensated with a higher return for forgoing the
risk from employment. This, however, is the opposite of what we observe.
24. 23
An alternative explanation is that non-pecuniary preferences suppress the returns from
entrepreneurship. For instance, subjects may simply enjoy making investments and seeing the
wheel of fortune determine outcomes and be willing to pay a positive premium for this privilege.
This explanation also has difficulties. First, one would think that, after so many iterations of the
game, the excitement of the investment contest would wear off and payoffs would converge.
Second, one would think that the coin flip activity offers a similar level of excitement to the
investment game and therefore payoff differences would narrow in this treatment. In fact, we
observe the opposite. Third, while it may be exciting to choose the entrepreneurship path, it is
unclear why this excite should lead to overly aggressive investment behavior. Finally, and in our
view most tellingly, this explanation fails to account for the findings of our Dual Market
treatment. One would think that the market with the large prize would be even more exciting
than the market with the smaller prize in Dual Market. Thus, under this hypothesis, the large
prize market should produce lower expected returns, which is again the opposite of what we
observe.
Perhaps subjects are motivated by status. Perhaps winning the contest confers a status advantage
on subjects that makes them willing to sacrifice pecuniary returns. Again, this explanation
founders given the results in the Dual Market. Clearly, the greatest status gains are to be had in
the more popular contest (i.e. the market with the large prize) and hence subjects should enter
and compete most aggressively here. However, we find that the opposite on both counts. Entry is
consistent with Nash equilibrium models where subjects pay no attention to status. Worse yet,
investment is significantly below the levels predicted by a model where status is completely
absent.
Thus, we are left with a puzzle. Standard (and even not so standard) amendments to the usual
model of rational agents driven purely by pecuniary considerations are simply incapable of
rationalizing the constellation of findings in our data. Determining an appropriate model is
obviously an important topic for future research.
6. Discussion and conclusions
The decision to become an entrepreneur is fraught with peril. One risk that entrepreneurs face,
what we term strategic risk, stems from the interactive nature of payoffs—an entrepreneur‘s fate
is not solely under her control, but rather depends on the strategy decisions of rivals in the same
market. Natural risk also plays a key role. Despite her best efforts, an entrepreneur‘s success or
failure is determined by the whims of fate. Random fluctuations in tastes, fads, and fashions are
often the difference between a winning venture and a losing one.
Using laboratory experiments, we isolate these two types of risk and examine how they affect the
decision to become an entrepreneur as well as the business strategy undertaken post-entry. Our
setting also allows us to observe the ―life cycle‖ of entrepreneurism—how choices and strategies
evolve as an entrepreneur gains experience in the market.
In settings primarily characterized by strategic risk, standard economic theory performs well in
predicting the entry and investment decisions of entrepreneurs. While payoffs from
entrepreneurship are initially depressed compared to the returns from a safe outside option, with
25. 24
experience, individuals sort themselves into entrepreneur and non-entrepreneur groups. Since
there are no barriers to switching between groups, it is hardly surprising that the expected
payoffs between the two groups approximately equalize.
Adding natural risk to the setting changes matters considerably. Individuals are now slightly
more inclined to pursue the entrepreneurship path and much more inclined to invest aggressively
post-entry. As a consequence, the returns from entrepreneurship badly lag those from an outside
option, regardless of whether it is safe or risky. Even with experience, these returns differences
persist. Our experiment thus nicely complements the empirical findings of Hamilton (2000),
showing that the pecuniary returns to entrepreneurship are negative. While he argues for the
importance of non-pecuniary benefits, we show that even in the absence of these, their findings
carry importance. It is left to future research to ―rationalize‖ the reasons for these payoff
differentials.
We do, however, observe an important exception to this pattern: when subjects are required to
pursue entrepreneurship and can only control the stakes of the game in which they are
participating, we find little appetite for risk. Relative to standard theory, too few subjects opt for
the high stakes path and those that do invest less aggressively than theory predicts. In this setting,
the payoff differential between the two entrepreneurship paths is large and persistent.
Perhaps equally important is the fact that natural risk reduces the sorting of individuals into
entrepreneurs and non-entrepreneurs. In effect, entrepreneurship becomes a revolving door.
Those who enter and are unlucky leave only to be replaced by individuals previously on the
sidelines now willing to take a chance on being an entrepreneur. Lucky entrepreneurs, on the
other hand, persist in the market, and seem to confuse luck for skill in this setting. These results
are consistent with the empirical findings of Mazzeo (2004) who notes that, in riskier settings,
there is less specialization between the entrepreneur and non-entrepreneur classes.
Entrepreneurship is widely viewed as a key national growth driver and, indeed, many countries
have policies put into place to reward this activity. Our findings shed light on some aspects of
these policies. First, for small stakes entrepreneurship, the problem may be one of too much
rather than too few. The combination of too little specialization, too much entry, and too
aggressive a level of investment may well prove socially wasteful rather than socially beneficial.
In large stakes settings, the opposite problem arises and here policy can clearly help. In effect,
our subjects are somewhat capital constrained in entering markets with large prizes. They have
no ability to hedge or offset their risk and, to be successful, they need to wager a significant
portion of their endowment. Our results suggest that initiatives designed to create liquidity and
offset some risk could prove beneficial.
Of course, there is a vast gulf between the much simplified entrepreneurial settings we study in
the lab and real-world entrepreneurship. Nonetheless, laboratory settings are crucial in
understanding reactions to different sources of risk and benchmarking relative to the predictions
of economic models. Thus, we view our findings as informative, but hardly the last word, on
strategic and natural risk and their effect on entrepreneurship.
26. 25
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28. 27
Appendix A: Instructions for the Experiment
Welcome! You are about to take part in an experiment in the economics of decision making. You
will be paid in private and in cash at the end of the experiment. The amount you earn will depend
on your decisions, so please follow the instructions carefully.
It is important that you do not talk to any of the other participants until the experiment is over. If
you have a question at any time, raise your hand and someone will come to your desk to answer
it.
The experiment will consist of fifty rounds. In each round you will be matched with the same
five other participants, randomly selected from the people in this room. Together, the six of you
form a group. Note that you will not learn who the other members of your group are, neither
during nor after today‘s session.
Each round is identical. At the beginning of the round you will be given an initial point balance
of 100 points. You will then have up to 15 seconds to decide between option A and option B. If,
at the end of that time, you have not made a choice, then the computer will make a choice for
you by selecting randomly between the two options. During the 15 seconds, your computer
screen will keep you informed of how many group members have chosen each of the options so
far, as well as the time remaining for you to make a choice. At the end of the 15 seconds the
computer will display your choice and the number of group members choosing each option.
Your final point earnings for the round will depend on your choice and the choices of other
group members as described below.
At the end of the experiment one of the fifty rounds will be selected at random. Your earnings
from the experiment will depend on your final point earnings in this randomly selected round.
The final point earnings will be converted into cash at a rate of 10p per point.
Option A
[Baseline, Shares, Winner-Take-All: If you select option A, 10 points will be added to your
point balance. Your final point earnings for the round will be 110 points.]
[Coin Flip: If you select option A, your final point earnings for the round will depend on the
outcome of a computerized coin flip. The coin is equally likely to come up heads or tails. If the
coin comes up heads 35 points will be added to your initial point balance and your final point
earnings for the round will be 135 points; if the coin comes up tails 15 points will be subtracted
from your initial point balance and your final point earnings for the round will be 85 points.]
[Dual Market: If you select option A you will have a chance to win a prize of 200 points.
First, if you are the only group member to select option A, you will automatically win the prize,
and 200 points will be added to your initial point balance. Your final point earnings for the round
will be 300 points.
29. 28
Second, if more than one group member selects option A there will be a contest among these
group members to determine who wins the prize. In this contest the players first decide how
many ―contest tokens‖ to buy. Each contest token you buy reduces your point balance by 1 point.
You can purchase up to 100 of these tokens. Everybody will be making this decision at the same
time, so you will not know how many contest tokens the other players have bought when you
make your choice. You will have 30 seconds to make a decision about how many contest tokens
to buy. If you do not make a decision within this time limit the computer will make a choice for
you by selecting zero tokens.
If nobody buys any tokens, nobody wins the prize. Otherwise, your chances of winning the prize
will depend on how many contest tokens you buy and how many contest tokens the other players
buy. This works as follows:
A computerized lottery wheel will be divided into shares with different colors. One share
belongs to you and the other shares belong to each of the other players (a different color for each
player). The size of your share on the lottery wheel is an exact representation of the number of
contest tokens you bought relative to all contest tokens purchased. For instance, if you own just
as many contest tokens as all the other players put together, your share will make up 50% of the
lottery wheel. In another example, suppose that there are four players (including you) and that
each of you owns the same number of contest tokens: in that case your share will make up 25%
of the lottery wheel.
Once the shares of the lottery wheel have been determined, the wheel will start to rotate and after
a short while it will stop at random. Just above the lottery wheel there is an indicator at the 12
o‘clock position. The indicator will point at one of the shares, and the player owning that share
will win the prize. Thus, your chances of winning the prize increase with the number of contest
tokens you buy. Conversely, the more contest tokens the other players buy, the lower your
chances of receiving the prize.
If you win the prize 200 points will be added to your point balance. Your final point earnings for
the round will be (100 – the number of contest tokens you bought + 200) points.
If another player wins the prize zero points will be added to your point balance. Your final point
earnings for the round will be (100 – the number of contest tokens you bought) points.]
Option B
[Baseline: If you select option B you will receive some additional points depending on how
many players choose option B.
If you are the only group member to select option B 50 points will be added to your initial point
balance. Your final point earnings for the round will be 150 points.
If you and one other group member selects option B 13 points will be added to your initial point
balance. Your final point earnings for the round will be 113 points
If you and two other group members select option B 6 points will be added to your initial point
balance. Your final point earnings for the round will be 106 points
30. 29
If you and three other group members select option B 3 points will be added to your initial point
balance. Your final point earnings for the round will be 103 points
If you and four other group member selects option B 2 points will be added to your initial point
balance. Your final point earnings for the round will be 102 points
If you and five other group member selects option B 1 point will be added to your initial point
balance. Your final point earnings for the round will be 101 points]
[Shares: If you select option B you can receive a share of a prize of 50 points.
First, if you are the only group member to select option B, you will automatically receive all of
the prize, and 50 points will be added to your initial point balance. Your final point earnings for
the round will be 150 points.
Second, if more than one group member selects option B there will be a contest among these
group members to determine how the prize is shared. In this contest the players first decide how
many ―contest tokens‖ to buy. Each contest token you buy reduces your point balance by 1 point.
You can purchase up to 100 of these tokens. Everybody will be making this decision at the same
time, so you will not know how many contest tokens the other players have bought when you
make your choice. You will have 30 seconds to make a decision about how many contest tokens
to buy. If you do not make a decision within this time limit the computer will make a choice for
you by selecting zero tokens.
If nobody buys any tokens, nobody receives any of the prize. Otherwise, your share of the prize
will equal your share of all tokens bought times 50 points, rounded to the nearest point.
For example, if all players (including you) bought a total of 100 tokens and you bought 25 of
these your share of all tokens bought is 25%. Your share of the prize is 25% of 50 points or 12.5
points, which is rounded to 13 points.
Thus, your share of the prize increases with the number of contest tokens you buy. Conversely,
the more contest tokens the other players buy, the lower will be your share of the prize.
Your share of the prize will be added to your point balance. Your final point earnings for the
round will be (100 – the number of contest tokens you bought + your share of the prize) points. ]
[Winner-Take-All, Coin Flip: If you select option B you will have a chance to win a prize of 50
points.
First, if you are the only group member to select option B, you will automatically win the prize,
and 50 points will be added to your initial point balance. Your final point earnings for the round
will be 150 points.
Second, if more than one group member selects option B there will be a contest among these
group members to determine who wins the prize. In this contest the players first decide how
many ―contest tokens‖ to buy. Each contest token you buy reduces your point balance by 1 point.
You can purchase up to 100 of these tokens. Everybody will be making this decision at the same
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time, so you will not know how many contest tokens the other players have bought when you
make your choice. You will have 30 seconds to make a decision about how many contest tokens
to buy. If you do not make a decision within this time limit the computer will make a choice for
you by selecting zero tokens.
If nobody buys any tokens, nobody wins the prize. Otherwise, your chances of winning the prize
will depend on how many contest tokens you buy and how many contest tokens the other players
buy. This works as follows:
A computerized lottery wheel will be divided into shares with different colors. One share
belongs to you and the other shares belong to each of the other players (a different color for each
player). The size of your share on the lottery wheel is an exact representation of the number of
contest tokens you bought relative to all contest tokens purchased. For instance, if you own just
as many contest tokens as all the other players put together, your share will make up 50% of the
lottery wheel. In another example, suppose that there are four players (including you) and that
each of you owns the same number of contest tokens: in that case your share will make up 25%
of the lottery wheel.
Once the shares of the lottery wheel have been determined, the wheel will start to rotate and after
a short while it will stop at random. Just above the lottery wheel there is an indicator at the 12
o‘clock position. The indicator will point at one of the shares, and the player owning that share
will win the prize. Thus, your chances of winning the prize increase with the number of contest
tokens you buy. Conversely, the more contest tokens the other players buy, the lower your
chances of receiving the prize.
If you win the prize 50 points will be added to your point balance. Your final point earnings for
the round will be (100 – the number of contest tokens you bought + 50) points.
If another player wins the prize zero points will be added to your point balance. Your final point
earnings for the round will be (100 – the number of contest tokens you bought) points.]
[Dual Market: If you select option B you will have a chance to win a prize of 50 points.
First, if you are the only group member to select option B, you will automatically win the prize,
and 50 points will be added to your point balance. Your final point earnings for the round will be
150 points.
Second, if more than one group member selects option B there will be a contest to determine
who wins the prize. This contest works in the same way as that described for option A, except
that the prize is 50 points.]
Now, please look at your computer screen and begin making your decisions. If you have a
question at any time please raise your hand and a monitor will come to your desk to answer it.
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Appendix B: Categorization of Study Fields for Business/Economics and Numerate
Numerate:
Accounting, Architectural Engineering, Architectural Studies, Architecture, Biochemistry,
Biochemistry and Biological Chemistry, Biology, Bioscience, Biotechnology, Business,
Chemical Engineering, Chemistry, Civil Engineering, Computer Science, Economics, Electrical
Engineering, Electronic Engineering, Engineering, Environmental Engineering, Finance,
Genetics, Industrial Economics, Information Technology, International Economics, Life
Sciences, Management, Mathematics, Mechanical Engineering, Medicine, Molecular
Diagnostics, Neuroscience, Pharmacy, Physics, Risk Management
Business/Economics:
Accounting, Business, Business Management, Business Studies, Economics, Finance, Industrial
Economics, International Economics, Management, Mathematics & Economics, Risk
Management