a) The power dissipated by a resistor can be given as: P IR AV, where IR is the current passing through the resistor and AV is the voltage drop due to the resistor. Frequently we will suppress the notation to just: P = IV. b) The energy lost from a resistor is given off as thermal energy. We would, in everyday language, call this heat. c) The energy lost due to a resistor can be recovered and reused by the circuit, meaning the loss of energy is completely reversible.
a) The power dissipated by a resistor can be given as: P IR AV, where IR is the current passing through the resistor and AV is the voltage drop due to the resistor. Frequently we will suppress the notation to just: P = IV. b) The energy lost from a resistor is given off as thermal energy. We would, in everyday language, call this heat. c) The energy lost due to a resistor can be recovered and reused by the circuit, meaning the loss of energy is completely reversible.
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Chapter1: Units, Trigonometry. And Vectors
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Please state if each question is True or False; if False, please explain why
Transcribed Image Text:a) The power dissipated by a resistor can be given as: P = IR AV, where IR is the current passing through the
resistor and AV is the voltage drop due to the resistor. Frequently we will suppress the notation to just: P = IV.
b) The energy lost from a resistor is given off as thermal energy. We would, in everyday language, call this heat.
c) The energy lost due to a resistor can be recovered and reused by the circuit, meaning the loss of energy is
completely reversible.
%3D
d) When two resistors are hooked up in parallel the equivalent resistance is: Reg =
R1 + R2.
%3D
e) When two resistors are hooked up in series the equivalent resistance is: Req
f) Two resistors that are hooked up in parallel must always burn the same voltage.
g) Two resistors that are hooked up in series must always burn the same voltage.
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