Manufacturing is going digital and electronics are becoming cheap and open source. What is the global community doing with this, and how is it affecting marketing?
The document summarizes the development of steam power and transportation technologies from the Industrial Revolution onward. It describes key inventors like James Watt who improved the steam engine. The steam engine then powered the earliest trains and vehicles. The document also outlines the shift from coal to oil as a fuel source and the rise of the automobile with inventors like Benz, Daimler, and Ford. It discusses the formation of major oil companies and OPEC, and how the 1973 oil embargo impacted prices, supply, and consumer behavior.
The document summarizes 6 technological revolutions from approximately 1770 to the present: 1) The first industrial revolution from 1770 introduced technologies like iron, machinery, and the mechanized cotton industry alongside infrastructures like canals, waterways, and factories. 2) The second industrial revolution from 1830 brought steam engines, steam power, railways, and telegraph networks. 3) From 1875, the third industrial revolution utilized technologies such as cheap steel, steamships, heavy industry, and electrical equipment alongside global shipping, railways, telegraph, and telephone networks. 4) The fourth industrial revolution from 1908 featured internal combustion engines, mass production, oil, petrochemicals, electricity, and management tools supported by roads, ports
The document provides information about an assignment on the Industrial Revolution for a History class. It outlines that students will:
1) Attend a workshop and exhibition at the Powerhouse Museum to see primary artifacts from the 19th century Industrial Revolution.
2) Complete an ICT PowerPoint assignment analyzing images and sources from the museum visit.
3) Answer discussion questions after the site visit about how the images represent the extent and impact of the Industrial Revolution from 1750-1900.
The document discusses the Industrial Revolution in America, specifically in the North. It describes how early Americans were mostly farmers and skilled tradespeople. The Industrial Revolution brought new technologies that enabled mass production of goods to meet growing demand. This started in England with innovations in the textile industry, including the water frame invented by Richard Arkwright. Samuel Slater helped bring textile production to America by establishing mills in Northern cities, while the South lagged due to slavery and lack of waterways for mills. Eli Whitney further advanced manufacturing by developing a system of interchangeable parts.
The Industrial Revolution began in Great Britain in the mid-18th century and transformed the world through innovations in manufacturing and transportation. Inventions like the spinning jenny, water frame, and power loom mechanized cotton production. James Watt's steam engine powered new technologies like locomotives and ships. The telegraph revolutionized communication, laying the foundation for future advances in telephony, fax, and the internet. These innovations increased productivity and helped spread the Industrial Revolution across Europe and North America.
Above is a talk I made for the Integrated Marketing Conference in Cape Town, entitled Learn, Unlearn, Relearn.
The talk takes you through a brief history of advertising showing what has changed, what is new, and what has fundamentally remained the same.
It then shares some tips and advice on how to help make sure your work remains relevant in today’s ever evolving world.
I gave the talk with Chris Gotz and Luca Gallarelli, both from Ogilvy Cape Town.
Travelling by caradvantagesanddisavantagesManole Madalin
The history of the car began in 1769 with the creation of a steam-powered vehicle that could carry people. In 1806, vehicles with internal combustion engines operating on liquid fuel appeared. Around 1900, electric vehicles also emerged. By the early 20th century there were hundreds of thousands of cars worldwide, growing to over 500,000 after World War II. Annual global car production exceeded 70 million by 2007.
The document summarizes the development of steam power and transportation technologies from the Industrial Revolution onward. It describes key inventors like James Watt who improved the steam engine. The steam engine then powered the earliest trains and vehicles. The document also outlines the shift from coal to oil as a fuel source and the rise of the automobile with inventors like Benz, Daimler, and Ford. It discusses the formation of major oil companies and OPEC, and how the 1973 oil embargo impacted prices, supply, and consumer behavior.
The document summarizes 6 technological revolutions from approximately 1770 to the present: 1) The first industrial revolution from 1770 introduced technologies like iron, machinery, and the mechanized cotton industry alongside infrastructures like canals, waterways, and factories. 2) The second industrial revolution from 1830 brought steam engines, steam power, railways, and telegraph networks. 3) From 1875, the third industrial revolution utilized technologies such as cheap steel, steamships, heavy industry, and electrical equipment alongside global shipping, railways, telegraph, and telephone networks. 4) The fourth industrial revolution from 1908 featured internal combustion engines, mass production, oil, petrochemicals, electricity, and management tools supported by roads, ports
The document provides information about an assignment on the Industrial Revolution for a History class. It outlines that students will:
1) Attend a workshop and exhibition at the Powerhouse Museum to see primary artifacts from the 19th century Industrial Revolution.
2) Complete an ICT PowerPoint assignment analyzing images and sources from the museum visit.
3) Answer discussion questions after the site visit about how the images represent the extent and impact of the Industrial Revolution from 1750-1900.
The document discusses the Industrial Revolution in America, specifically in the North. It describes how early Americans were mostly farmers and skilled tradespeople. The Industrial Revolution brought new technologies that enabled mass production of goods to meet growing demand. This started in England with innovations in the textile industry, including the water frame invented by Richard Arkwright. Samuel Slater helped bring textile production to America by establishing mills in Northern cities, while the South lagged due to slavery and lack of waterways for mills. Eli Whitney further advanced manufacturing by developing a system of interchangeable parts.
The Industrial Revolution began in Great Britain in the mid-18th century and transformed the world through innovations in manufacturing and transportation. Inventions like the spinning jenny, water frame, and power loom mechanized cotton production. James Watt's steam engine powered new technologies like locomotives and ships. The telegraph revolutionized communication, laying the foundation for future advances in telephony, fax, and the internet. These innovations increased productivity and helped spread the Industrial Revolution across Europe and North America.
Above is a talk I made for the Integrated Marketing Conference in Cape Town, entitled Learn, Unlearn, Relearn.
The talk takes you through a brief history of advertising showing what has changed, what is new, and what has fundamentally remained the same.
It then shares some tips and advice on how to help make sure your work remains relevant in today’s ever evolving world.
I gave the talk with Chris Gotz and Luca Gallarelli, both from Ogilvy Cape Town.
Travelling by caradvantagesanddisavantagesManole Madalin
The history of the car began in 1769 with the creation of a steam-powered vehicle that could carry people. In 1806, vehicles with internal combustion engines operating on liquid fuel appeared. Around 1900, electric vehicles also emerged. By the early 20th century there were hundreds of thousands of cars worldwide, growing to over 500,000 after World War II. Annual global car production exceeded 70 million by 2007.
The Industrial Revolution began in Great Britain in the late 1700s and spread throughout Europe and North America in the early 1800s. New machines like the spinning jenny and water frame mechanized textile production, increasing output. The development of steam power further mechanized factories and drove new machinery. This transition from manual labor to machine-driven mass production transformed economies and societies across the Western world.
Wynberg girls high-lynne martin-history-grade8-the industrial revolution1Wynberg Girls High
The Industrial Revolution transformed Britain from the mid-18th to mid-19th century through the introduction of steam power, new machinery, and factories. Key developments included James Watt building the first effective steam engine in 1769 and the construction of steam trains like the Rocket in 1825. These innovations powered industry and transportation, increasing productivity but also changing lives and living/working conditions for many people. Britain's advantages like resources, trade networks, and access to capital allowed it to become the world's first industrialized nation during this revolutionary period.
The Industrial Revolution began in Great Britain in the late 18th century and spread around the world. Key innovations like the water frame for cotton spinning and James Watt's improved steam engine drove this period of socioeconomic change. Britain was well positioned for industrialization due to political stability, banking, raw materials, and global trade and markets. Factories proliferated and drove urbanization as many moved to cities for work. While industry and technology advanced greatly, working conditions in the early factories were often difficult, with long hours and child labor. The Great Exhibition of 1851 highlighted Britain's role as an industrial leader.
The document discusses the new industrial revolution which began around 2005 and is expected to last 50 years. It will be characterized by 7 themes: customized manufacturing, environmental responsiveness, niche approaches, hybridized manufacturing models, China's continued rise as a manufacturing power, a push for new technologies, and a transition to more skilled labor and design-focused work. The new revolution will create opportunities for talented people and countries that develop strong design and engineering capabilities can position themselves higher in global manufacturing value chains.
The industrial revolution transformed society through new technologies in textiles, mining, and steel production. Powered by coal and steam, factories using machines like the spinning jenny and water frame massively increased production but also led to unsafe working conditions, long hours, child labor, urban overcrowding, and poor living standards for many workers. The industrialization of Britain established its dominance but also came at great human cost due to the difficulties of rapid industrial and population growth.
The document provides an overview of the key events and developments of the Industrial Revolution, including:
- The shift from cottage industries and home production to factory production driven by new technologies like the steam engine.
- Agricultural improvements like crop rotation that supported population growth and a shift away from subsistence farming.
- Urbanization as people moved to cities for new industrial jobs, bringing public health and social challenges.
- New technologies in transportation, communication, manufacturing, and other fields that increased productivity and economic growth.
The document summarizes key aspects of the Industrial Revolution that occurred in Britain between the late 18th and early 19th centuries. It overviews how Britain transitioned from an agrarian economy to one powered by machinery, steam, and factories. This industrialization process had wide-ranging economic, political, and social impacts, including increased production, changes to the social class structure, and both benefits and problems for workers. The text provides details on several important innovations, such as steam engines and cotton manufacturing machines, that drove Britain's industrial transformation.
INVENTION AND INNOVATION DUE TO INDUSTRIAL REVOLUTIONAbhishek Sharma
Here is another creative presentation by your slide maker on the topic “INVENTION AND INNOVATION DUE TO INDUSTRIAL REVOLUTION". Hope you like it. If you like it then please, *like*, *Download* and *Share*. By- Slide_maker4u (Abhishek Sharma) *******For presentation Orders, contact me on the Email addresses Written below
******** Email- Sharmaabhishek576@gmail.com or Sharmacomputers87@gmail.com
*******THANK YOU***************
The Industrial Revolution transformed society from 1750-1850 through advances in manufacturing, transportation, and agriculture. New steam-powered machines and railroads increased production and connectivity. While some profited greatly, workers faced long hours, low pay, child labor, and unsafe conditions. Rural populations moved to cities to work in mills. Overall, the Industrial Revolution drove economic growth but also increased social inequality and exploitation.
The Industrial Revolution began in England in the 18th century due to several key factors: large population and natural resources like coal and iron ore, an expanding economy, and inventions in textiles and transportation like the spinning jenny, steam engine, and steamboat. This led to rapid urbanization and growth of factories, but also poor living and working conditions for many as factories lacked regulations. The effects included the rise of social classes as workers faced long hours, low pay, and unsafe conditions compared to the growing middle class of factory owners.
The Industrial Revolution began in England in the 18th century due to several key factors: large population and natural resources like coal and iron ore, an expanding economy, and inventions in textiles and transportation like the spinning jenny, steam engine, and steamboat. This led to rapid urbanization and growth of factories, but also poor living and working conditions for many as factories lacked regulations. The effects included the emergence of new social classes as workers faced long hours, low pay, and unsafe conditions compared to the growing middle class of factory owners.
This document provides information on several important inventions from the Industrial Revolution. It describes the seed drill, which mechanized planting and increased crop yields; the lightning rod, which Benjamin Franklin invented to protect buildings from lightning strikes; the spinning jenny, which allowed weaving of multiple threads at once and increased textile production; the steam engine, which James Watt improved and powered factories; the cotton gin, which Eli Whitney invented to speed up cotton cleaning; and Alexander Graham Bell's telephone from 1876, which allowed transmission of voices over wires. The document encourages noting additional inventions for extra credit.
Industrial Revolution Power Point Yeraguest4bf784d
The document discusses several major technological advancements from the 18th and 19th centuries as well as the 20th century that drove the Industrial Revolution and modernization. Some key inventions and developments mentioned include the spinning jenny, steam engine, railroads, airplanes, television, and mobile phones. The effects of these technologies on society, both positive and negative, are also examined such as increasing productivity but also child labor and wealth inequality. Solutions proposed to address the problems created by technological change include governments providing new jobs and taxing the rich to help the poor.
The document discusses the Industrial Revolution from 1760-1840 when inventions like the spinning jenny and steam engine led to huge changes in manufacturing processes. This transition to mechanized factory production resulted in massive economic and population growth in Western societies, but also caused social problems like unhealthy urban living conditions and worker exploitation that led to new laws regulating child labor, working hours and environmental pollution over time.
The industrial revolution transformed Britain from an agrarian economy to an industrial one based on factories. New technologies like the steam engine, spinning jenny, water frame and power loom automated textile production. This concentrated production in factories, employing many women and children for long hours under poor conditions. While increasing production, it also caused social problems as populations migrated to cities with inadequate housing and disease. The Luddites resisted these changes by destroying machinery. Eventually, laws were passed to limit child labor and improve conditions.
Car Evolution - From the Past to the FutureNutleyKia
Take a look at the evolution history of automobile and what it will be in the future. For classic car lovers, this is a slideshare you do not want to miss. Learn more about car tips and fun facts at Nutley Kia's blog www.nutleykia.com/blog
The document discusses the Industrial Revolution in Great Britain. It describes how the Enclosure Movement of the 1700s fenced off commonly held lands, pushing peasants into towns to work in factories. This supplied labor for the new industrial system. Advances like the spinning jenny, steam engine, and improvements to iron production and railroads drove industrialization. The spread of industrialization to other parts of Europe and America relied on factors like government support, railway infrastructure, and population shifts from farms to cities. The social impacts included famine, immigration, and early socialist ideas proposing more equitable distribution of wealth.
The industrial revolution began in Great Britain in the late 1700s and lasted over 100 years. It transformed manufacturing by introducing machines to mass produce goods in factories powered by steam engines rather than human labor. Britain was well-suited for the industrial revolution due to its natural resources like coal and iron as well as new technologies. While industrialization increased production and standards of living, it also led to environmental pollution and poor working conditions in overcrowded cities. The economic structure changed as more people moved to urban areas for factory jobs, wealth accumulated for industrialists, and a middle class emerged.
The Industrial Revolution was a period from the late 18th century to the mid-19th century where agrarian societies became more industrial and urban. New technologies like the steam engine allowed production to shift from homes to factories, increasing output. Mass production and the division of labor in factories also increased efficiency and lowered costs. Inventions like the steam engine, mechanization of factories, and the telegraph drove changes in how people lived and worked during this revolutionary time.
The document discusses the four industrial revolutions: 1) The first used steam engines to mechanically produce goods. 2) The second used assembly lines and electricity for mass production. 3) The third saw the rise of automated production using computers and digital technology. 4) The fourth is characterized by digital transformation through technologies like the internet of things, cyber-physical systems, and interconnected networks.
The industrial revolutions through history and the situation of brazilFernando Alcoforado
Throughout history, there have been four industrial revolutions. The first industrial revolution was boosted by the invention of steam engines and railroad construction, inaugurating the era of mechanized production. The second industrial revolution made mass production possible, thanks to the advent of electricity and production lines. The third industrial revolution was catalyzed by the development of semiconductors, mainframes and personal computers, as well as the internet. Today, we are living the fourth industrial revolution that involves intelligent machines simultaneously with waves of advances in many areas, ranging from genetic sequencing to nanotechnology.
At Solulever, we deliver unique Edge platform, industry-specific solutions and services that simplify the digital manufacturing transformations. We are passionate about bringing the power of ‘Data at Speed’ to manufacturing and about bringing ‘Beauty’ to manufacturing systems. We deliver the promise of digital manufacturing through ‘Continuous Value Realization Programs’ leveraging our Edge platform and solutions.
https://solulever.com/brabo
<a href="https://solulever.com/brabo">Solulever</a>
The Industrial Revolution began in Great Britain in the late 1700s and spread throughout Europe and North America in the early 1800s. New machines like the spinning jenny and water frame mechanized textile production, increasing output. The development of steam power further mechanized factories and drove new machinery. This transition from manual labor to machine-driven mass production transformed economies and societies across the Western world.
Wynberg girls high-lynne martin-history-grade8-the industrial revolution1Wynberg Girls High
The Industrial Revolution transformed Britain from the mid-18th to mid-19th century through the introduction of steam power, new machinery, and factories. Key developments included James Watt building the first effective steam engine in 1769 and the construction of steam trains like the Rocket in 1825. These innovations powered industry and transportation, increasing productivity but also changing lives and living/working conditions for many people. Britain's advantages like resources, trade networks, and access to capital allowed it to become the world's first industrialized nation during this revolutionary period.
The Industrial Revolution began in Great Britain in the late 18th century and spread around the world. Key innovations like the water frame for cotton spinning and James Watt's improved steam engine drove this period of socioeconomic change. Britain was well positioned for industrialization due to political stability, banking, raw materials, and global trade and markets. Factories proliferated and drove urbanization as many moved to cities for work. While industry and technology advanced greatly, working conditions in the early factories were often difficult, with long hours and child labor. The Great Exhibition of 1851 highlighted Britain's role as an industrial leader.
The document discusses the new industrial revolution which began around 2005 and is expected to last 50 years. It will be characterized by 7 themes: customized manufacturing, environmental responsiveness, niche approaches, hybridized manufacturing models, China's continued rise as a manufacturing power, a push for new technologies, and a transition to more skilled labor and design-focused work. The new revolution will create opportunities for talented people and countries that develop strong design and engineering capabilities can position themselves higher in global manufacturing value chains.
The industrial revolution transformed society through new technologies in textiles, mining, and steel production. Powered by coal and steam, factories using machines like the spinning jenny and water frame massively increased production but also led to unsafe working conditions, long hours, child labor, urban overcrowding, and poor living standards for many workers. The industrialization of Britain established its dominance but also came at great human cost due to the difficulties of rapid industrial and population growth.
The document provides an overview of the key events and developments of the Industrial Revolution, including:
- The shift from cottage industries and home production to factory production driven by new technologies like the steam engine.
- Agricultural improvements like crop rotation that supported population growth and a shift away from subsistence farming.
- Urbanization as people moved to cities for new industrial jobs, bringing public health and social challenges.
- New technologies in transportation, communication, manufacturing, and other fields that increased productivity and economic growth.
The document summarizes key aspects of the Industrial Revolution that occurred in Britain between the late 18th and early 19th centuries. It overviews how Britain transitioned from an agrarian economy to one powered by machinery, steam, and factories. This industrialization process had wide-ranging economic, political, and social impacts, including increased production, changes to the social class structure, and both benefits and problems for workers. The text provides details on several important innovations, such as steam engines and cotton manufacturing machines, that drove Britain's industrial transformation.
INVENTION AND INNOVATION DUE TO INDUSTRIAL REVOLUTIONAbhishek Sharma
Here is another creative presentation by your slide maker on the topic “INVENTION AND INNOVATION DUE TO INDUSTRIAL REVOLUTION". Hope you like it. If you like it then please, *like*, *Download* and *Share*. By- Slide_maker4u (Abhishek Sharma) *******For presentation Orders, contact me on the Email addresses Written below
******** Email- Sharmaabhishek576@gmail.com or Sharmacomputers87@gmail.com
*******THANK YOU***************
The Industrial Revolution transformed society from 1750-1850 through advances in manufacturing, transportation, and agriculture. New steam-powered machines and railroads increased production and connectivity. While some profited greatly, workers faced long hours, low pay, child labor, and unsafe conditions. Rural populations moved to cities to work in mills. Overall, the Industrial Revolution drove economic growth but also increased social inequality and exploitation.
The Industrial Revolution began in England in the 18th century due to several key factors: large population and natural resources like coal and iron ore, an expanding economy, and inventions in textiles and transportation like the spinning jenny, steam engine, and steamboat. This led to rapid urbanization and growth of factories, but also poor living and working conditions for many as factories lacked regulations. The effects included the rise of social classes as workers faced long hours, low pay, and unsafe conditions compared to the growing middle class of factory owners.
The Industrial Revolution began in England in the 18th century due to several key factors: large population and natural resources like coal and iron ore, an expanding economy, and inventions in textiles and transportation like the spinning jenny, steam engine, and steamboat. This led to rapid urbanization and growth of factories, but also poor living and working conditions for many as factories lacked regulations. The effects included the emergence of new social classes as workers faced long hours, low pay, and unsafe conditions compared to the growing middle class of factory owners.
This document provides information on several important inventions from the Industrial Revolution. It describes the seed drill, which mechanized planting and increased crop yields; the lightning rod, which Benjamin Franklin invented to protect buildings from lightning strikes; the spinning jenny, which allowed weaving of multiple threads at once and increased textile production; the steam engine, which James Watt improved and powered factories; the cotton gin, which Eli Whitney invented to speed up cotton cleaning; and Alexander Graham Bell's telephone from 1876, which allowed transmission of voices over wires. The document encourages noting additional inventions for extra credit.
Industrial Revolution Power Point Yeraguest4bf784d
The document discusses several major technological advancements from the 18th and 19th centuries as well as the 20th century that drove the Industrial Revolution and modernization. Some key inventions and developments mentioned include the spinning jenny, steam engine, railroads, airplanes, television, and mobile phones. The effects of these technologies on society, both positive and negative, are also examined such as increasing productivity but also child labor and wealth inequality. Solutions proposed to address the problems created by technological change include governments providing new jobs and taxing the rich to help the poor.
The document discusses the Industrial Revolution from 1760-1840 when inventions like the spinning jenny and steam engine led to huge changes in manufacturing processes. This transition to mechanized factory production resulted in massive economic and population growth in Western societies, but also caused social problems like unhealthy urban living conditions and worker exploitation that led to new laws regulating child labor, working hours and environmental pollution over time.
The industrial revolution transformed Britain from an agrarian economy to an industrial one based on factories. New technologies like the steam engine, spinning jenny, water frame and power loom automated textile production. This concentrated production in factories, employing many women and children for long hours under poor conditions. While increasing production, it also caused social problems as populations migrated to cities with inadequate housing and disease. The Luddites resisted these changes by destroying machinery. Eventually, laws were passed to limit child labor and improve conditions.
Car Evolution - From the Past to the FutureNutleyKia
Take a look at the evolution history of automobile and what it will be in the future. For classic car lovers, this is a slideshare you do not want to miss. Learn more about car tips and fun facts at Nutley Kia's blog www.nutleykia.com/blog
The document discusses the Industrial Revolution in Great Britain. It describes how the Enclosure Movement of the 1700s fenced off commonly held lands, pushing peasants into towns to work in factories. This supplied labor for the new industrial system. Advances like the spinning jenny, steam engine, and improvements to iron production and railroads drove industrialization. The spread of industrialization to other parts of Europe and America relied on factors like government support, railway infrastructure, and population shifts from farms to cities. The social impacts included famine, immigration, and early socialist ideas proposing more equitable distribution of wealth.
The industrial revolution began in Great Britain in the late 1700s and lasted over 100 years. It transformed manufacturing by introducing machines to mass produce goods in factories powered by steam engines rather than human labor. Britain was well-suited for the industrial revolution due to its natural resources like coal and iron as well as new technologies. While industrialization increased production and standards of living, it also led to environmental pollution and poor working conditions in overcrowded cities. The economic structure changed as more people moved to urban areas for factory jobs, wealth accumulated for industrialists, and a middle class emerged.
The Industrial Revolution was a period from the late 18th century to the mid-19th century where agrarian societies became more industrial and urban. New technologies like the steam engine allowed production to shift from homes to factories, increasing output. Mass production and the division of labor in factories also increased efficiency and lowered costs. Inventions like the steam engine, mechanization of factories, and the telegraph drove changes in how people lived and worked during this revolutionary time.
The document discusses the four industrial revolutions: 1) The first used steam engines to mechanically produce goods. 2) The second used assembly lines and electricity for mass production. 3) The third saw the rise of automated production using computers and digital technology. 4) The fourth is characterized by digital transformation through technologies like the internet of things, cyber-physical systems, and interconnected networks.
The industrial revolutions through history and the situation of brazilFernando Alcoforado
Throughout history, there have been four industrial revolutions. The first industrial revolution was boosted by the invention of steam engines and railroad construction, inaugurating the era of mechanized production. The second industrial revolution made mass production possible, thanks to the advent of electricity and production lines. The third industrial revolution was catalyzed by the development of semiconductors, mainframes and personal computers, as well as the internet. Today, we are living the fourth industrial revolution that involves intelligent machines simultaneously with waves of advances in many areas, ranging from genetic sequencing to nanotechnology.
At Solulever, we deliver unique Edge platform, industry-specific solutions and services that simplify the digital manufacturing transformations. We are passionate about bringing the power of ‘Data at Speed’ to manufacturing and about bringing ‘Beauty’ to manufacturing systems. We deliver the promise of digital manufacturing through ‘Continuous Value Realization Programs’ leveraging our Edge platform and solutions.
https://solulever.com/brabo
<a href="https://solulever.com/brabo">Solulever</a>
The Industrial Revolution began in the 1700s in Europe, sparked by new inventions like James Watt's improved steam engine. Important figures who contributed to innovations included Karl Marx, Edmund Cartwright, Sir Humphrey Davy, Joseph Locke, and Sir Henry Bessemer. The Industrial Revolution transformed the global economy and greatly increased production through the widespread use of new machinery. It allowed industrialization to spread from Britain to other parts of Europe and eventually the rest of the world over the 1800s.
This document provides an overview of industrial development and technology. It begins with definitions of technology and the industrial revolution. The industrial revolution started in Britain in the 18th century and led to a shift from small-scale hand production to large-scale machine production in factories. This brought economic and population growth but also negative consequences like pollution and poor working conditions. The document then discusses how the industrial revolution impacted society through economic, political, and social changes like urbanization. It also notes both benefits and risks of modern technologies like computers.
This document provides an overview of emerging technologies and the industrial revolution. It discusses four industrial revolutions (IR 1.0-4.0) defined by major technological advances like steam power, electricity, computers and emerging technologies like IoT and AI. It also describes key inventions of each industrial revolution in transportation, communication and industry that drove economic growth. Finally, it discusses the role of data science in emerging technologies and different data types from structured to unstructured data.
For the most time of human history, life was local and linear. Local in the way that anything that happened was close by, a least within a walking distance. Linear in the way that your life was the same as your father and your childs. Nothing changed.
Just like the evolution of man, technology improvements follow an evolutionary progress. New ideas or products are to begin with immature and fragile with slow improvements. Then the progress accelerates until the products become mature and taken for granted. Then the cycle repeats and a new layer of technology is added to the previous. This process is exponential. One such observation of exponential is Moore’s Law.
We will explore what exponential means. We look at Moore´s law and The Law of the Accelerating returns.
The document provides an overview of the origins and key developments of the Industrial Revolution in Britain. It discusses early inventions like the spinning jenny and steam engine that mechanized textile production. It also covers improvements to agriculture that increased food production and displaced rural workers. The growth of new industries like steel, oil, transportation and communication are examined as Britain transformed into the world's first industrialized nation in the late 18th and early 19th centuries. Key inventors and their inventions that drove this process are named.
The document discusses the Industrial Revolution and its impacts. It began in Britain in the late 18th century, driven by new inventions and technologies like the steam engine. Factories using machinery replaced manual labor, and people moved from rural areas to cities for work. Britain was well positioned to industrialize due to its resources like coal and iron, as well as political and economic policies. The Industrial Revolution spread innovations that transformed industries such as textiles. It also contributed to imperialism and colonialism as countries competed for new markets and resources.
What is today seen as industrial automation, began in the 19th century as industrial revolution. Further on, the use of electricity and application of feedback controllers led to modern automation in manufacturing. And today all sectors of industry are embracing some form of technology to increase productivity.
The Industrial Revolution And Its Long-Term EffectsSusan Cox
The Industrial Revolution had both positive and negative impacts on society. It improved production capabilities and increased wealth but also led to poor working conditions and child labor. New technologies allowed for mass production in factories, but factories often had dangerous machinery and exposed workers to health risks. Children as young as 10 years old worked long hours under difficult conditions. While the Industrial Revolution advanced economies, it disrupted traditional family structures and introduced hardships for many workers.
Market Revolution And The Industrial RevolutionMiles Priar
The Industrial Revolution led to rapid changes in production methods and society. New inventions like the seed drill boosted crop yields, feeding a growing population and freeing up workers for factory jobs. While mass production increased efficiency and profits, it also exploited laborers through long hours, unsafe conditions, and low pay. This inequality and unrest helped spur political ideologies like communism as a response to the social impacts of the Industrial Revolution.
The document discusses the Industrial Revolution, which took place from the 18th to 19th centuries and marked a shift from manual labor and production in homes to machine-based, factory production. Key developments included inventions like the spinning jenny and water frame that mechanized the textile industry, James Watt's improvements to the steam engine, using coal instead of wood to produce iron, and building canals and early railways to improve transportation of goods. These changes resulted in much higher volumes of manufactured goods but also difficult working conditions and consequences for employment and society.
The Industrial Revolution had both positive and negative effects on society. It led to advances in technology but also caused widespread poverty and poor living/working conditions. Many farmers lost their lands and were forced into overcrowded cities to work long hours in unsafe factories for low wages. While it increased production, it also led to unemployment as machines replaced skilled workers. It boosted some economies but harmed others through unfair trade policies. Overall, the document examines both the benefits of industrialization as well as its human costs and detrimental social impacts.
The Industrial Revolution had both positive and negative effects on society. It led to advances in technology but also caused widespread poverty and poor living/working conditions. As machines replaced skilled workers, unemployment increased and many turned to violence. While it increased production, it also exploited child labor and polluted the environment. The enclosure acts displaced farmers and filled cities with impoverished populations to work in factories. Overall, the Industrial Revolution changed societies and economies but in many ways was detrimental to quality of life for many.
The Industrial Revolution had both positive and negative effects on society. It led to advances in technology but also caused widespread poverty and poor living/working conditions. As machines replaced skilled workers, unemployment increased and many turned to violence. While it increased production, it also exploited child labor and polluted the environment. The enclosure acts displaced farmers and filled cities with impoverished populations to work in factories. Overall, the Industrial Revolution changed societies and economies but in many ways was detrimental to quality of life for many.
Similar to Make: The third industrial revolution (20)
Working at the crossroads of business, storytelling, technology, people and p...Erik Arvedson
While working at a giant digital consultancy, how can we future-proof our business? What are the things we need to start doing today, to stay ahead of the curve in three years? In this presentation I share some concrete processes and tools we use to build Emerging Experiences - our business incubator / research lab / innovation accelerator.
Sophia och Erik berättar om vad som ligger bakom de designprojekt de tillsammans jobbar med på kommunikationsbyrån Valentin&Byhr. De kommer bland annat att beskriva några av utmaningarna som de tror kommer bli avgörande framöver. De vänder sig i detta samtal till dem som är intresserade av design, varumärken och Arduino.
Three things that will change the world and five things you can do about it.Erik Arvedson
Technology is changing the world faster than ever. And people too are changing faster than ever. This presentation describes three main trends that will change the world in the coming years and five strategies to meet the challenges.
Pay with a tweet to download it, just go to this page: http://www.paywithatweet.com/pay/?id=4d985d768181e3cf58a2000dcbcf00d8
Introduction to Creative Coding and OpenFrameworksErik Arvedson
This document discusses creative coding using openFrameworks. OpenFrameworks is a C++ library that provides a simple framework for creative experimentation and making things via code. Examples mentioned include using openFrameworks to create dynamic paintings based on Nike run data and laser etching details onto custom shoe boxes. Other projects discussed are EyeWriter, which allows drawing using only eye movements, and software analyzing graffiti gestures. The Microsoft Kinect is also mentioned as being immediately hacked and open sourced after its public release.
What's next for big corporations with global web sites, trying to keep up with the insane rate of change of technology? This presentation was part of LBi Sweden's »What's next« conference in 2011.
For the full video of this presentation, please visit: https://www.edge-ai-vision.com/2024/06/building-and-scaling-ai-applications-with-the-nx-ai-manager-a-presentation-from-network-optix/
Robin van Emden, Senior Director of Data Science at Network Optix, presents the “Building and Scaling AI Applications with the Nx AI Manager,” tutorial at the May 2024 Embedded Vision Summit.
In this presentation, van Emden covers the basics of scaling edge AI solutions using the Nx tool kit. He emphasizes the process of developing AI models and deploying them globally. He also showcases the conversion of AI models and the creation of effective edge AI pipelines, with a focus on pre-processing, model conversion, selecting the appropriate inference engine for the target hardware and post-processing.
van Emden shows how Nx can simplify the developer’s life and facilitate a rapid transition from concept to production-ready applications.He provides valuable insights into developing scalable and efficient edge AI solutions, with a strong focus on practical implementation.
Webinar: Designing a schema for a Data WarehouseFederico Razzoli
Are you new to data warehouses (DWH)? Do you need to check whether your data warehouse follows the best practices for a good design? In both cases, this webinar is for you.
A data warehouse is a central relational database that contains all measurements about a business or an organisation. This data comes from a variety of heterogeneous data sources, which includes databases of any type that back the applications used by the company, data files exported by some applications, or APIs provided by internal or external services.
But designing a data warehouse correctly is a hard task, which requires gathering information about the business processes that need to be analysed in the first place. These processes must be translated into so-called star schemas, which means, denormalised databases where each table represents a dimension or facts.
We will discuss these topics:
- How to gather information about a business;
- Understanding dictionaries and how to identify business entities;
- Dimensions and facts;
- Setting a table granularity;
- Types of facts;
- Types of dimensions;
- Snowflakes and how to avoid them;
- Expanding existing dimensions and facts.
Taking AI to the Next Level in Manufacturing.pdfssuserfac0301
Read Taking AI to the Next Level in Manufacturing to gain insights on AI adoption in the manufacturing industry, such as:
1. How quickly AI is being implemented in manufacturing.
2. Which barriers stand in the way of AI adoption.
3. How data quality and governance form the backbone of AI.
4. Organizational processes and structures that may inhibit effective AI adoption.
6. Ideas and approaches to help build your organization's AI strategy.
Building Production Ready Search Pipelines with Spark and MilvusZilliz
Spark is the widely used ETL tool for processing, indexing and ingesting data to serving stack for search. Milvus is the production-ready open-source vector database. In this talk we will show how to use Spark to process unstructured data to extract vector representations, and push the vectors to Milvus vector database for search serving.
Project Management Semester Long Project - Acuityjpupo2018
Acuity is an innovative learning app designed to transform the way you engage with knowledge. Powered by AI technology, Acuity takes complex topics and distills them into concise, interactive summaries that are easy to read & understand. Whether you're exploring the depths of quantum mechanics or seeking insight into historical events, Acuity provides the key information you need without the burden of lengthy texts.
Cosa hanno in comune un mattoncino Lego e la backdoor XZ?Speck&Tech
ABSTRACT: A prima vista, un mattoncino Lego e la backdoor XZ potrebbero avere in comune il fatto di essere entrambi blocchi di costruzione, o dipendenze di progetti creativi e software. La realtà è che un mattoncino Lego e il caso della backdoor XZ hanno molto di più di tutto ciò in comune.
Partecipate alla presentazione per immergervi in una storia di interoperabilità, standard e formati aperti, per poi discutere del ruolo importante che i contributori hanno in una comunità open source sostenibile.
BIO: Sostenitrice del software libero e dei formati standard e aperti. È stata un membro attivo dei progetti Fedora e openSUSE e ha co-fondato l'Associazione LibreItalia dove è stata coinvolta in diversi eventi, migrazioni e formazione relativi a LibreOffice. In precedenza ha lavorato a migrazioni e corsi di formazione su LibreOffice per diverse amministrazioni pubbliche e privati. Da gennaio 2020 lavora in SUSE come Software Release Engineer per Uyuni e SUSE Manager e quando non segue la sua passione per i computer e per Geeko coltiva la sua curiosità per l'astronomia (da cui deriva il suo nickname deneb_alpha).
HCL Notes and Domino License Cost Reduction in the World of DLAUpanagenda
Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-and-domino-license-cost-reduction-in-the-world-of-dlau/
The introduction of DLAU and the CCB & CCX licensing model caused quite a stir in the HCL community. As a Notes and Domino customer, you may have faced challenges with unexpected user counts and license costs. You probably have questions on how this new licensing approach works and how to benefit from it. Most importantly, you likely have budget constraints and want to save money where possible. Don’t worry, we can help with all of this!
We’ll show you how to fix common misconfigurations that cause higher-than-expected user counts, and how to identify accounts which you can deactivate to save money. There are also frequent patterns that can cause unnecessary cost, like using a person document instead of a mail-in for shared mailboxes. We’ll provide examples and solutions for those as well. And naturally we’ll explain the new licensing model.
Join HCL Ambassador Marc Thomas in this webinar with a special guest appearance from Franz Walder. It will give you the tools and know-how to stay on top of what is going on with Domino licensing. You will be able lower your cost through an optimized configuration and keep it low going forward.
These topics will be covered
- Reducing license cost by finding and fixing misconfigurations and superfluous accounts
- How do CCB and CCX licenses really work?
- Understanding the DLAU tool and how to best utilize it
- Tips for common problem areas, like team mailboxes, functional/test users, etc
- Practical examples and best practices to implement right away
Generating privacy-protected synthetic data using Secludy and MilvusZilliz
During this demo, the founders of Secludy will demonstrate how their system utilizes Milvus to store and manipulate embeddings for generating privacy-protected synthetic data. Their approach not only maintains the confidentiality of the original data but also enhances the utility and scalability of LLMs under privacy constraints. Attendees, including machine learning engineers, data scientists, and data managers, will witness first-hand how Secludy's integration with Milvus empowers organizations to harness the power of LLMs securely and efficiently.
5th LF Energy Power Grid Model Meet-up SlidesDanBrown980551
5th Power Grid Model Meet-up
It is with great pleasure that we extend to you an invitation to the 5th Power Grid Model Meet-up, scheduled for 6th June 2024. This event will adopt a hybrid format, allowing participants to join us either through an online Mircosoft Teams session or in person at TU/e located at Den Dolech 2, Eindhoven, Netherlands. The meet-up will be hosted by Eindhoven University of Technology (TU/e), a research university specializing in engineering science & technology.
Power Grid Model
The global energy transition is placing new and unprecedented demands on Distribution System Operators (DSOs). Alongside upgrades to grid capacity, processes such as digitization, capacity optimization, and congestion management are becoming vital for delivering reliable services.
Power Grid Model is an open source project from Linux Foundation Energy and provides a calculation engine that is increasingly essential for DSOs. It offers a standards-based foundation enabling real-time power systems analysis, simulations of electrical power grids, and sophisticated what-if analysis. In addition, it enables in-depth studies and analysis of the electrical power grid’s behavior and performance. This comprehensive model incorporates essential factors such as power generation capacity, electrical losses, voltage levels, power flows, and system stability.
Power Grid Model is currently being applied in a wide variety of use cases, including grid planning, expansion, reliability, and congestion studies. It can also help in analyzing the impact of renewable energy integration, assessing the effects of disturbances or faults, and developing strategies for grid control and optimization.
What to expect
For the upcoming meetup we are organizing, we have an exciting lineup of activities planned:
-Insightful presentations covering two practical applications of the Power Grid Model.
-An update on the latest advancements in Power Grid -Model technology during the first and second quarters of 2024.
-An interactive brainstorming session to discuss and propose new feature requests.
-An opportunity to connect with fellow Power Grid Model enthusiasts and users.
Your One-Stop Shop for Python Success: Top 10 US Python Development Providersakankshawande
Simplify your search for a reliable Python development partner! This list presents the top 10 trusted US providers offering comprehensive Python development services, ensuring your project's success from conception to completion.
TrustArc Webinar - 2024 Global Privacy SurveyTrustArc
How does your privacy program stack up against your peers? What challenges are privacy teams tackling and prioritizing in 2024?
In the fifth annual Global Privacy Benchmarks Survey, we asked over 1,800 global privacy professionals and business executives to share their perspectives on the current state of privacy inside and outside of their organizations. This year’s report focused on emerging areas of importance for privacy and compliance professionals, including considerations and implications of Artificial Intelligence (AI) technologies, building brand trust, and different approaches for achieving higher privacy competence scores.
See how organizational priorities and strategic approaches to data security and privacy are evolving around the globe.
This webinar will review:
- The top 10 privacy insights from the fifth annual Global Privacy Benchmarks Survey
- The top challenges for privacy leaders, practitioners, and organizations in 2024
- Key themes to consider in developing and maintaining your privacy program
Threats to mobile devices are more prevalent and increasing in scope and complexity. Users of mobile devices desire to take full advantage of the features
available on those devices, but many of the features provide convenience and capability but sacrifice security. This best practices guide outlines steps the users can take to better protect personal devices and information.
AI 101: An Introduction to the Basics and Impact of Artificial IntelligenceIndexBug
Imagine a world where machines not only perform tasks but also learn, adapt, and make decisions. This is the promise of Artificial Intelligence (AI), a technology that's not just enhancing our lives but revolutionizing entire industries.
Skybuffer SAM4U tool for SAP license adoptionTatiana Kojar
Manage and optimize your license adoption and consumption with SAM4U, an SAP free customer software asset management tool.
SAM4U, an SAP complimentary software asset management tool for customers, delivers a detailed and well-structured overview of license inventory and usage with a user-friendly interface. We offer a hosted, cost-effective, and performance-optimized SAM4U setup in the Skybuffer Cloud environment. You retain ownership of the system and data, while we manage the ABAP 7.58 infrastructure, ensuring fixed Total Cost of Ownership (TCO) and exceptional services through the SAP Fiori interface.
12. The Economist, April 21st 2012
THE first industrial revolution began in Britain in
the late 18th century, with the mechanisation of the
textile industry. […]
The second industrial revolution came in the early
20th century, when Henry Ford mastered the
moving assembly line and ushered in the age of
mass production. […]
Now a third revolution is under way.