Technology
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Good morning mga bobo! this is my slideshare presentation about my ideas of technology and about what is the advantages and disadvantages of technology, ENJOY! ./.
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Technology
Technology is the application of science to solve problems through tools, machines, techniques and systems. Simple technology uses two or less simple machines like knives and brushes, while advanced technology uses multiple machines such as microwaves, ovens and washing machines. Advanced technology reduces time, energy and effort to perform tasks, allowing multiple tasks to be done simultaneously and improving quality, but it can also negatively impact the environment and cause inactivity.
technology-140611171318-phpapp02 (1).pptx
Technology is the application of science to solve problems through tools, machines, techniques and systems. It can be classified as simple, involving two or fewer simple machines like a knife, or advanced, involving multiple machines like a microwave. Advanced technology provides advantages like reducing task time, removing drudgery, allowing multitasking, improving quality and productivity, and potentially improving health. However, it also poses disadvantages such as environmental impacts, unemployment from machine replacements, and reduced physical activity for users.
Technology
The document defines technology as the application of science to solve problems through tools, machines, techniques and systems. It classifies technology as simple, involving two or less simple machines like knives, or advanced, involving several machines like microwaves and washing machines. Key advantages are reducing task time, removing drudgery, enabling multitasking, improving quality and health. Disadvantages can include environmental impacts, unemployment from automation, and inactivity.
PPt on Technology (Chhaya, Roll No. 10).pptx
The document is a student project on technology. It defines technology as the application of science to solve problems through tools, machines, techniques and systems. It classifies technology as simple (with 2 or fewer machines) or advanced (with multiple machines). It provides examples like knives and microwaves. It also outlines advantages like reducing time, removing drudgery, allowing multitasking. Disadvantages include environmental impacts, unemployment, and inactivity.
Technology
This document discusses technology, including its definition, types, and advantages and disadvantages. Technology is defined as the application of science to solve problems through tools, machines, techniques and systems. There are two types of technology: simple technology with two or less simple machines, and advanced technology with several simple machines working together. Some key advantages are that technology reduces time to complete tasks, removes drudgery, and allows multitasking. However, disadvantages include potential negative environmental impacts, unemployment if machines replace humans, and inactivity if devices require little energy.
Unit 2: The engineering process; Lesson 3: How does technology improve our lives
This document discusses how technology has evolved over time to meet human needs. It explains that while needs remain the same, the ways of meeting those needs change with improvements in technology. Examples are given of how communication technologies advanced from stagecoaches to telegraphs to smartphones to fulfill the need for long-distance communication. The document also addresses how technology can have both benefits and risks, and how bioengineering applies engineering principles to living things to improve health, the environment, and more.
U 2 lesson 1
Engineers follow a design process to solve problems and meet human needs. The process involves identifying needs, brainstorming solutions, building prototypes, testing and improving designs based on criteria, and communicating results. Technologies are designed to improve lives, and the design process is iterative - prototypes may fail initially, requiring redesign and testing until an effective solution is found. Engineering helps develop useful products through application of science and math.
Industrial technology and Accidents, clean technology, Clean Development Mech...
Industrial technology and Accidents, clean technology, Clean Development Mech...H. M. Touhidul Islam
Industrial Technology, Technological development in industry, Industrial Accidents in Factory, Types of Accident in Factory, Causes of Accidents in factory, Monitoring and protecting measure of Industrial Accidents, Safe Toxic Waste management, Waste Disposal Technology, What is clean technology, Clean Development Mechanism (CDM) & CDM Scenario in Bangladesh, mitigation and adaptation measures in CDM concept, National plan on sustainable habitual action concept of CDM, Green Architecture Issues of energy security
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Technology
Technology is the application of science to solve problems through tools, machines, techniques and systems. Simple technology uses two or less simple machines like knives and brushes, while advanced technology uses multiple machines such as microwaves, ovens and washing machines. Advanced technology reduces time, energy and effort to perform tasks, allowing multiple tasks to be done simultaneously and improving quality, but it can also negatively impact the environment and cause inactivity.
technology-140611171318-phpapp02 (1).pptx
Technology is the application of science to solve problems through tools, machines, techniques and systems. It can be classified as simple, involving two or fewer simple machines like a knife, or advanced, involving multiple machines like a microwave. Advanced technology provides advantages like reducing task time, removing drudgery, allowing multitasking, improving quality and productivity, and potentially improving health. However, it also poses disadvantages such as environmental impacts, unemployment from machine replacements, and reduced physical activity for users.
Technology
The document defines technology as the application of science to solve problems through tools, machines, techniques and systems. It classifies technology as simple, involving two or less simple machines like knives, or advanced, involving several machines like microwaves and washing machines. Key advantages are reducing task time, removing drudgery, enabling multitasking, improving quality and health. Disadvantages can include environmental impacts, unemployment from automation, and inactivity.
PPt on Technology (Chhaya, Roll No. 10).pptx
The document is a student project on technology. It defines technology as the application of science to solve problems through tools, machines, techniques and systems. It classifies technology as simple (with 2 or fewer machines) or advanced (with multiple machines). It provides examples like knives and microwaves. It also outlines advantages like reducing time, removing drudgery, allowing multitasking. Disadvantages include environmental impacts, unemployment, and inactivity.
Technology
This document discusses technology, including its definition, types, and advantages and disadvantages. Technology is defined as the application of science to solve problems through tools, machines, techniques and systems. There are two types of technology: simple technology with two or less simple machines, and advanced technology with several simple machines working together. Some key advantages are that technology reduces time to complete tasks, removes drudgery, and allows multitasking. However, disadvantages include potential negative environmental impacts, unemployment if machines replace humans, and inactivity if devices require little energy.
Unit 2: The engineering process; Lesson 3: How does technology improve our lives
This document discusses how technology has evolved over time to meet human needs. It explains that while needs remain the same, the ways of meeting those needs change with improvements in technology. Examples are given of how communication technologies advanced from stagecoaches to telegraphs to smartphones to fulfill the need for long-distance communication. The document also addresses how technology can have both benefits and risks, and how bioengineering applies engineering principles to living things to improve health, the environment, and more.
U 2 lesson 1
Engineers follow a design process to solve problems and meet human needs. The process involves identifying needs, brainstorming solutions, building prototypes, testing and improving designs based on criteria, and communicating results. Technologies are designed to improve lives, and the design process is iterative - prototypes may fail initially, requiring redesign and testing until an effective solution is found. Engineering helps develop useful products through application of science and math.
Industrial technology and Accidents, clean technology, Clean Development Mech...
Industrial technology and Accidents, clean technology, Clean Development Mech...H. M. Touhidul Islam
Industrial Technology, Technological development in industry, Industrial Accidents in Factory, Types of Accident in Factory, Causes of Accidents in factory, Monitoring and protecting measure of Industrial Accidents, Safe Toxic Waste management, Waste Disposal Technology, What is clean technology, Clean Development Mechanism (CDM) & CDM Scenario in Bangladesh, mitigation and adaptation measures in CDM concept, National plan on sustainable habitual action concept of CDM, Green Architecture Issues of energy security
Industrial Steam Cleaners: How They Work and Their Many Benefits
If you’re in the industrial sector, cleanliness is not just
about aesthetics; it is crucial for efficiency, productivity,
and safety.
Industrial steam cleaners have emerged as powerful
tools that offer an effective and environmentally
friendly way to tackle tough cleaning challenges.
In this presentation, we will delve into how industrial
steam cleaners work, exploring their various benefits
and why they have become a popular choice in many
industries.
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This document reviews an electric dryer designed for drying areca nuts. It begins with an abstract that outlines the need for an electric dryer due to extended drying times of areca nuts using natural or conventional drying methods during rainy seasons. It then provides details on the components of the dryer, which includes a drying chamber, blower unit, and heating chamber. The methodology section explains the drying process, which involves loading boiled areca nuts into the chamber, preheating the chamber, blowing heated air through the nuts using a blower and furnace, then monitoring moisture levels until drying is complete. The dryer is able to control temperature and airflow to reduce drying time while improving quality compared to traditional drying methods.
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The document discusses the engineering design process. It explains that engineers identify problems, brainstorm solutions, build prototypes, test and improve designs, and communicate results. The design process is iterative - engineers make changes to prototypes based on testing until meeting criteria such as safety and cost standards. It provides examples of how engineers like Thomas Edison applied this process, taking years and many attempts to develop innovations like the light bulb.
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This document provides information about different methods of drying grains and agricultural products. It discusses natural drying methods like solar or sun drying, as well as mechanical drying methods like heated air convective drying, freeze drying, vacuum drying, fluidized bed drying, and spray drying. For each method, it outlines the basic process, advantages, and disadvantages. The key methods covered are natural sun drying, mechanical heated air drying, contact plate drying, freeze drying, vacuum drying, and fluidized bed drying. The document aims to strengthen understanding of drying basics and acquaint students with various drying principles and technologies.
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The document discusses several key aspects of modern industrialization and production processes, including mechanization using machines for mass production, a wide range of raw materials and energy sources used, the use of advanced technology operated by skilled workers, division of labor where workers specialize in small tasks, automation and robotics replacing human labor, and the feminization of the workforce with more women employed. Subcontracting work and coordinating specialized tasks also support efficient large-scale production.
Are Industrial Steam Cleaners Safe to use on Delicate Materials?
Industrial steam cleaners have become a popular choice for efficient and effective cleaning in various industries.
These powerful machines utilise high-temperature steam to sanitise and disinfect surfaces, making them ideal for tackling tough dirt, grime, and even killing bacteria.
However, when it comes to delicate materials, such as fabrics, sensitive electronics, or fragile surfaces, concerns about the safety of using industrial steam cleaners arise.
In the following slides, we will explore the question, “Are industrial steam cleaners safe to use on delicate materials?”.
We will examine the potential risks and benefits, providing you with a comprehensive understanding to make informed decisions about cleaning delicate items.
The most important fields in technology
Modern technology is defined as devices based on efficiency and high implementation speed to help users access their goals quickly. Characteristics of modern technology include saving time and effort in tasks like household chores through machines. Technology also allows for a digital economy using digital representations of money. However, disadvantages are some access unsuitable sites, wasted time on entertainment, and eye problems from screens. Applications of technology that will grow include fuel cells that use less fuel and emit less carbon dioxide, expanding solar energy use, and LED lighting that saves on energy consumption. Key technology fields are communication technology that enhanced information sharing and education technology that helps students learn using computers early on.
Eng
Technology makes life easier and happier in several ways. Machines in the home like refrigerators, washing machines, microwaves, and vacuums save time by performing tasks like washing clothes, cleaning, and food storage. This frees up time to do other activities. Technologies are developed by scientists and engineers to create machines that respond to human needs and requests to make life more comfortable and efficient. Without machines, many daily tasks would be difficult to accomplish. Overall, technologies and machines make completing both simple and complex tasks easier for humans.
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1) The document provides information about Zhengzhou Great Machinery Equipment Co., Ltd., including their products such as dryer equipment, related equipment, and contact details. 2) Their main products include microwave vacuum dryers, hot air circulation drying ovens, batch dryers, and digital constant temperature drying machines. 3) They aim to increase customers' productivity while ensuring safety through high quality equipment, resources, technology, and processes.
GRT Product Brochure
1) The document provides information about Zhengzhou Great Machinery Equipment Co., Ltd., including their products such as dryer equipment, related equipment, and contact details. 2) Their main products include microwave vacuum dryers, hot air circulation drying ovens, batch dryers, and digital constant temperature drying machines. 3) They aim to increase customers' productivity while ensuring safety through high quality equipment, technology, and processes.
Best Steam Cleaners For Facilities Management
Industrial steam cleaners provide an efficient, eco-friendly, and versatile solution for cleaning tasks in facilities management. They use high-temperature steam to rapidly dissolve tough dirt and grease without chemicals. This saves time and labor compared to traditional cleaning methods. Additionally, steam cleaning improves safety, air quality, and equipment lifespan while reducing environmental impact and compliance costs for facilities.
Industrial Steam Cleaners for Equipment Maintenance: An Overview
In the industrial sector, equipment maintenance is a critical aspect that ensures smooth operations and maximises the lifespan of machinery. Over time, industrial equipment can accumulate dirt, grime, and other contaminants, which can affect its performance and efficiency. To tackle these challenges, industrial steam cleaners have emerged as a reliable and efficient solution for equipment maintenance. In this article, we will delve into the world of Industrial steam cleaners for equipment maintenance and explore their applications, benefits, and considerations for effective use.
S3 environment
The document discusses the positive and negative environmental impacts of technology, with the negative impacts including electronic waste, resource depletion from manufacturing, and energy consumption from use. It also covers the concept of the carbon footprint from devices and advocates for understanding energy usage in computers and promoting energy saving methods and green technology.
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Ralph Stuart discusses rethinking laboratory ventilation traditions to balance safety and sustainability. Key points include:
1. Laboratory ventilation aims to control temperature, fire hazards, odors, toxicity, dust, and humidity, often through excessive air changes.
2. Fume hoods, while important for safety, can use as much energy as 3.5 houses each. Variable air volume hoods and occupancy sensors can reduce this impact.
3. Studies show 6 air changes per hour may adequately control chemical hazards in many labs, offering energy savings over the traditional standard of 8 changes. Proper chemical storage and local exhaust also improve safety.
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Drying .pdf
The document discusses various aspects of drying, including definitions, purposes, processes, and factors that influence drying. Drying is defined as a heat and mass transfer process that reduces water content in a material to allow for long-term storage. Key points made include:
- Drying removes water needed by microbes to grow, allowing dehydrated foods to be shelf-stable.
- Heat transfer and moisture transfer are the two events that occur in drying.
- Drying methods include heated air, sun, solar, shed, spray drying, and freeze drying.
- Factors like temperature, time, moisture content, and pressure influence drying rates.
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If you’re in the industrial sector, cleanliness is not just
about aesthetics; it is crucial for efficiency, productivity,
and safety.
Industrial steam cleaners have emerged as powerful
tools that offer an effective and environmentally
friendly way to tackle tough cleaning challenges.
In this presentation, we will delve into how industrial
steam cleaners work, exploring their various benefits
and why they have become a popular choice in many
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This document reviews an electric dryer designed for drying areca nuts. It begins with an abstract that outlines the need for an electric dryer due to extended drying times of areca nuts using natural or conventional drying methods during rainy seasons. It then provides details on the components of the dryer, which includes a drying chamber, blower unit, and heating chamber. The methodology section explains the drying process, which involves loading boiled areca nuts into the chamber, preheating the chamber, blowing heated air through the nuts using a blower and furnace, then monitoring moisture levels until drying is complete. The dryer is able to control temperature and airflow to reduce drying time while improving quality compared to traditional drying methods.
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Characteristics of modern industries
The document discusses several key aspects of modern industrialization and production processes, including mechanization using machines for mass production, a wide range of raw materials and energy sources used, the use of advanced technology operated by skilled workers, division of labor where workers specialize in small tasks, automation and robotics replacing human labor, and the feminization of the workforce with more women employed. Subcontracting work and coordinating specialized tasks also support efficient large-scale production.
Are Industrial Steam Cleaners Safe to use on Delicate Materials?
Industrial steam cleaners have become a popular choice for efficient and effective cleaning in various industries.
These powerful machines utilise high-temperature steam to sanitise and disinfect surfaces, making them ideal for tackling tough dirt, grime, and even killing bacteria.
However, when it comes to delicate materials, such as fabrics, sensitive electronics, or fragile surfaces, concerns about the safety of using industrial steam cleaners arise.
In the following slides, we will explore the question, “Are industrial steam cleaners safe to use on delicate materials?”.
We will examine the potential risks and benefits, providing you with a comprehensive understanding to make informed decisions about cleaning delicate items.
The most important fields in technology
Modern technology is defined as devices based on efficiency and high implementation speed to help users access their goals quickly. Characteristics of modern technology include saving time and effort in tasks like household chores through machines. Technology also allows for a digital economy using digital representations of money. However, disadvantages are some access unsuitable sites, wasted time on entertainment, and eye problems from screens. Applications of technology that will grow include fuel cells that use less fuel and emit less carbon dioxide, expanding solar energy use, and LED lighting that saves on energy consumption. Key technology fields are communication technology that enhanced information sharing and education technology that helps students learn using computers early on.
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Technology makes life easier and happier in several ways. Machines in the home like refrigerators, washing machines, microwaves, and vacuums save time by performing tasks like washing clothes, cleaning, and food storage. This frees up time to do other activities. Technologies are developed by scientists and engineers to create machines that respond to human needs and requests to make life more comfortable and efficient. Without machines, many daily tasks would be difficult to accomplish. Overall, technologies and machines make completing both simple and complex tasks easier for humans.
GRT Product Brochure
1) The document provides information about Zhengzhou Great Machinery Equipment Co., Ltd., including their products such as dryer equipment, related equipment, and contact details. 2) Their main products include microwave vacuum dryers, hot air circulation drying ovens, batch dryers, and digital constant temperature drying machines. 3) They aim to increase customers' productivity while ensuring safety through high quality equipment, resources, technology, and processes.
GRT Product Brochure
1) The document provides information about Zhengzhou Great Machinery Equipment Co., Ltd., including their products such as dryer equipment, related equipment, and contact details. 2) Their main products include microwave vacuum dryers, hot air circulation drying ovens, batch dryers, and digital constant temperature drying machines. 3) They aim to increase customers' productivity while ensuring safety through high quality equipment, technology, and processes.
Best Steam Cleaners For Facilities Management
Industrial steam cleaners provide an efficient, eco-friendly, and versatile solution for cleaning tasks in facilities management. They use high-temperature steam to rapidly dissolve tough dirt and grease without chemicals. This saves time and labor compared to traditional cleaning methods. Additionally, steam cleaning improves safety, air quality, and equipment lifespan while reducing environmental impact and compliance costs for facilities.
Industrial Steam Cleaners for Equipment Maintenance: An Overview
In the industrial sector, equipment maintenance is a critical aspect that ensures smooth operations and maximises the lifespan of machinery. Over time, industrial equipment can accumulate dirt, grime, and other contaminants, which can affect its performance and efficiency. To tackle these challenges, industrial steam cleaners have emerged as a reliable and efficient solution for equipment maintenance. In this article, we will delve into the world of Industrial steam cleaners for equipment maintenance and explore their applications, benefits, and considerations for effective use.
S3 environment
The document discusses the positive and negative environmental impacts of technology, with the negative impacts including electronic waste, resource depletion from manufacturing, and energy consumption from use. It also covers the concept of the carbon footprint from devices and advocates for understanding energy usage in computers and promoting energy saving methods and green technology.
Rethinking Lab Ventilation
Ralph Stuart discusses rethinking laboratory ventilation traditions to balance safety and sustainability. Key points include:
1. Laboratory ventilation aims to control temperature, fire hazards, odors, toxicity, dust, and humidity, often through excessive air changes.
2. Fume hoods, while important for safety, can use as much energy as 3.5 houses each. Variable air volume hoods and occupancy sensors can reduce this impact.
3. Studies show 6 air changes per hour may adequately control chemical hazards in many labs, offering energy savings over the traditional standard of 8 changes. Proper chemical storage and local exhaust also improve safety.
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what is sterilization & disinfectant& decontamination
risk of infection from equipment
process of sterilization, filtration
classification of disinfectant
alcohol,phenol,hydrogen peroxide
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Final Year project Black Book. Gives description about each and every element used in project. Detail procedure of design and assembly of project model with images.
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- Drying removes water needed by microbes to grow, allowing dehydrated foods to be shelf-stable.
- Heat transfer and moisture transfer are the two events that occur in drying.
- Drying methods include heated air, sun, solar, shed, spray drying, and freeze drying.
- Factors like temperature, time, moisture content, and pressure influence drying rates.
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The recent surge in pro-Palestine student activism has prompted significant responses from universities, ranging from negotiations and divestment commitments to increased transparency about investments in companies supporting the war on Gaza. This activism has led to the cessation of student encampments but also highlighted the substantial sacrifices made by students, including academic disruptions and personal risks. The primary drivers of these protests are poor university administration, lack of transparency, and inadequate communication between officials and students. This study examines the profound emotional, psychological, and professional impacts on students engaged in pro-Palestine protests, focusing on Generation Z's (Gen-Z) activism dynamics. This paper explores the significant sacrifices made by these students and even the professors supporting the pro-Palestine movement, with a focus on recent global movements. Through an in-depth analysis of printed and electronic media, the study examines the impacts of these sacrifices on the academic and personal lives of those involved. The paper highlights examples from various universities, demonstrating student activism's long-term and short-term effects, including disciplinary actions, social backlash, and career implications. The researchers also explore the broader implications of student sacrifices. The findings reveal that these sacrifices are driven by a profound commitment to justice and human rights, and are influenced by the increasing availability of information, peer interactions, and personal convictions. The study also discusses the broader implications of this activism, comparing it to historical precedents and assessing its potential to influence policy and public opinion. The emotional and psychological toll on student activists is significant, but their sense of purpose and community support mitigates some of these challenges. However, the researchers call for acknowledging the broader Impact of these sacrifices on the future global movement of FreePalestine.
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Technology
- 1. TECHNOLOGY
- 3. •Technology is the application of science to solve problems. •Technology is the making, usage and knowledge of tools, machine, techniques, crafts and system of organization to solve problems.
- 5. •Simple Technology- Has two or less simple machines. Example of simple technology include knife, brush. •Advanced Technology- Has several simple machines example microwave oven, electric iron, washing machine.
- 7. 1. Reduces the time it takes to perform a task. 2. Removes drudgery from a task (amount of energy used up to perform a task.) 3. Allows you to perform more than one task at the same time (dovetailing/multi task). Example you can cook while using the washing machine to wash your clothes.
- 8. 4. Improves the quality of the finished product. 5. May improve the health of individuals because food can cooked and stored more easily and prevent the transmission of germs. 6.Increases the performance rate of tasks that can be performed with a specified time.
- 10. 1.May negatively impact the environment for example CFC from refrigerators. 2. Technology some cause unemployment as machine replaces human labor. 3.Technology can cause individuals to become inactive because the use of the devices does not require much energy to be expended.