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Energy An Introduction. Energy  Learning Standard  ENGR-EP-1. Students will utilize the ideas of energy, work, power, and force to explain how systems.

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Presentation on theme: "Energy An Introduction. Energy  Learning Standard  ENGR-EP-1. Students will utilize the ideas of energy, work, power, and force to explain how systems."— Presentation transcript:

1 Energy An Introduction

2 Energy  Learning Standard  ENGR-EP-1. Students will utilize the ideas of energy, work, power, and force to explain how systems convert, control, transmit, and/or store energy and power

3 Energy  Concepts  Identify types of energy surrounding us  Differentiate among renewable, nonrenewable, and exhaustible energy sources  Explain the difference between potential and kinetic energy  Name and describe the six forms of energy  Describe the history of energy consumption in the U.S.  Name various sectors of society associated with energy consumption  Summarize the present energy consumption trends in the U.S. and worldwide

4 Energy  Concepts  Discuss the concept of efficiency  Define the law of entropy  Recognize various factors that influence the exploration and development of different energy resources  Give examples of reasons for growth in the demand for energy and power

5 Energy  Vocabulary Acid Rain British Thermal Unit (Btu) Chemical Energy Efficiency Electrical Energy Embargo Energy Conservation Energy Consumption Energy Conversion Entropy Global Warming Greenhouse Effect Heat Energy Heating Unit Inexhaustible Energy Source Kinetic Energy Light Energy Mechanical Energy Nonrenewable Energy Source Nuclear Energy Organization of Petroleum Exporting Countries (OPEC) Potential Energy Quad Renewable Energy

6 Energy  Energy  Energy is defined as the ability to do work

7 Energy  Energy  3 Classifications of Energy  Renewable Energy Resources  Nonrenewable Energy Resources  Inexhaustible Energy Resources

8 Energy  Renewable Energy Resources  Renewable energy resources are those resources that can be replaced when needed. They can be harvested and regenerated in a relatively short period of time  Food  Wood  Cornstalks  Sugarcane

9 Energy  Nonrenewable Energy Resources  Nonrenewable energy resources are those resources that cannot be replaced once used. Can take hundreds of thousands of years to produce these resources  Fossil Fuels  Uranium

10 Energy  Inexhaustible Energy Resources  Inexhaustible energy resources are those resources that will never run out (will last for millions of years)  Sun  Water  Wind  Tidal/Wave Motion

11 Energy  Types of Energy  All energy can be classified in to two types  Potential Energy  Kinetic Energy

12 Energy  Types of Energy  Potential energy is energy that is stored and ready for use  Gasoline in a tank  Water behind a hydroelectric dam  Rollercoaster at the top of the lift  Drawn bow

13 Energy  Types of Energy  Kinetic energy is often defined as energy that is in motion  Burning gasoline in an engine  Water turning an turbine  Rollercoaster falling  Arrow being shot

14 Energy  Forms of Energy  There are six forms of energy  Light Energy  Heat Energy  Mechanical Energy  Chemical Energy  Electrical Energy  Nuclear Energy

15 Energy  Forms of Energy  Light energy is energy that is visible to the eye. It represents a very small portion of all radiant energy, which collectively is known as the electromagnetic spectrum

16 Energy  Forms of Energy  Heat energy, also referred to as infrared energy, has a longer wavelength that light energy. This longer wavelength does not allow heat to pass through certain materials, like glass, as readily as light energy does. Heart energy is generally not visible to the eye, but it can be measured in terms of temperature

17 Energy  Forms of Energy  Mechanical energy is energy produced by mechanical devices, such as gears, pulleys, levers, or more complex devices, like internal combustion engines

18 Energy  Forms of Energy  Chemical Energy is the term used to describe the potential energy locked within a substance. For instance, 50 lbs. of red oak might be capable of producing the same amount of heat energy as 15 lbs. of high-grade coal or 2 gallon of refined heating oil

19 Energy  Forms of Energy  Electrical energy is the energy associated with the flow of electrons. Electricity is used extensively in contemporary society to power the majority of our convenience appliances

20 Energy  Forms of Energy  Nuclear energy is the term associated with the power of the atom. It was initially harnessed during the 1940s. The initial use of nuclear energy was for war, but with the conclusion of World War II, peacetime uses for nuclear energy, such as power generation, emerged

21 Energy  Measuring Energy  The most basic unit of energy is known as the British thermal unit (Btu). This is a small amount of energy:  The Btu is an often-referenced energy unit because all forms of energy can be related to the amount of Btu they produce  In energy for structural heating: One heating unit is equal to 100,000 Btu of energy 1 Btu = One wood-stem match burning completely

22 Energy  Energy Consumption  When measuring energy consumption, or the use of energy resources, of a large city, country, or continent, we measure this in the Quad.  A quad is equal to 1 quadrillion Btu of energy, or : 1 Quad = 1.0 x 10 15 Btu = 1,000,000,000,000,000 Btu

23 Energy  Energy Consumption (U.S. History)  Energy sources in early America primarily consisted of wind, water, and wood  Factories were constructed near flowing water or falling water converting it to mechanical energy  Farmers used the wind to create mechanical power to pump water and grind grain

24 Energy  Energy Consumption (U.S. History)  1800’s saw the invention of the steam engine which gave rise to the steam locomotive and the steamship  Coal replaced wood as the main energy source  Approx. the same amount of energy is produced by 15 lbs. of coal and 20-50 lbs. of wood

25 Energy  Energy Consumption (U.S. History)  By 1900 the internal combustion engine had been perfected, which was being used to power the first automobile  Pound for pound, gasoline contains more energy that coal  When it comes to gasoline and oil, there have been times when the supply of energy has not met the demand here in the U.S.  We have come to rely on other countries to meet this demand

26 Energy  Energy Consumption (U.S. History)  OPEC (Organization of Exporting Countries)  Consists of 12 Countries (Algeria, Angola, Ecuador, Iran, Iraq, Kuwait, Libya, Nigeria, Qatar, Saudi Arabia, United Arab Emirates, and Venezuela)  OPEC members collectively hold 79% of world crude oil reserves and 44% of the world’s crude oil production  In 1973, OPEC penalized the U.S. for it’s oil consumption by creating an oil embargo against the U.S. Restricting the trade of oil to the U.S. forces the government and car manufacturers to produce more economical (4-cylinder) vehicles, which started the energy conservation movement here in the U.S.

27 Energy  Energy Consumption (U.S. History)  In the 1980’s, the U.S. shifted from an industrial society to a service society. This shift helped to create the personal computer and usher in the information age.  The majority of energy now consumed in the U.S. is done so by the industrial and transportation sectors  Many start up companies in the information age have focused on alternative energies  Even so, fossil fuels are anticipated to remain the dominant sources of energies here in the U.S. for the foreseeable future

28 Energy  Energy Consumption (U.S. History)  According to the Energy Information Administration of the U.S. Department of Energy (DOE), world energy consumption will increase by over 50% by 2025

29 Energy  Energy Conversion  Energy conversion is the changing of one form of energy into another  Technological advances, such as the development of the electric motor, the home heating, and solar collectors, allow for energy conversion  Electric motor: Converts electrical energy into mechanical energy  Furnace: Converts potential energy (fuel) into kinetic energy (heat)  Solar collector: Converts sunlight into heat

30 Energy  Energy Conversion  Efficiency is a term used to measure the extent to which an energy form is usually converted to another form of energy  Combustion engines have an efficiency rating of 27% - 40%  Heating furnaces have an efficiency rating of up to 90%  Improving the efficiency of energy conversions devices, such as engines, furnaces, and generators, is one primary way to improve energy and power technologies

31 Energy  Energy Conversion  Entropy is a measure of the unavailable energy in a closed system  The law of entropy states that whenever an energy form is converted from one form to another, some loss will occur; mostly as heat

32 Energy  Energy Conversion

33 Energy  Energy and the Environment  The consumption of fossil fuels leads to environmental problems, such as acid rain and the greenhouse effect, which leads to global warming  As the consumption of fossil fuels increase over the next 15 – 20 years, we will also see an increase in the effects from acid rain and the greenhouse effect

34 Energy  Energy and the Environment  Conservation and recycling are just two ways of combating the increase of these effects  If each school recycles 1 ton of paper it will save the following:  6,953 gallons of water  463 gallons of oil  587 lbs. of air pollution  4,077 kWh of electricity  The U.S. produces 9,190 million tons of office paper annually


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