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In the first lesson, we saw that energy can be transformed from one form to another, and during this conversion, all the energy that we put into a device comes out. However, all the energy that we put in may not come out in the desired form.

For example, we put electrical energy into a bulb and the bulb produces light (which is the desired form of output from a bulb), but we also get heat from the bulb (undesired form of energy from an electric bulb). Therefore, energy flow into and out of any energy conversion device can be summarized in the diagram below:Energy Flow Diagram for an Energy Conversion DeviceWhen all forms of energy coming out of an energy conversion device are added up, it will be equal to the energy that is put into a device. This means that energy can not be destroyed or created. In the case of an electric bulb, the electrical energy is converted to light and heat. The amount of electrical energy put into a bulb = the amount of light energy (desirable form) plus the heat energy that comes out of the bulb (undesirable form).

Say you go to the mall with $100 and you come back with only $10. After thinking about it, you come up with the following list:Gas ($15); Sandwich, fries, and a drink ($8); Lost ($5); New clothes ($62)So you spent $62 on something useful - the clothes - but you spent additional money for other things that were necessary for your trip to the mall.

Self CheckInstructions: Identify the useful energy output(s) and undesirable energy output(s) in the energy conversion devices below Panacea, but the same year President Iimmy Carter signed a bill to turn massive thinking that has been exhibited in the past (as in the case of the MEEE), do not change. I began to study energy issues quite by chance. the late 19705 when I was asked to write a book for young people about the dramatic power failures .

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