011 (part 1 of 2) An electric car is designed to run on a bank of batteries with a total potential difference of 23 V and a total energy storage of 1.8×107 J. If the electric motor draws 7.0 kW, what is the current delivered to the motor? Answer in units of A. 012 (part 2 of 2) If the electric motor draws 7.0 kW as the car moves at a steady speed of 24.0 m/s, how far will the car travel before it is “out of juice"? Answer in units of m.

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011 (part 1 of 2)
An electric car is designed to run on a bank of
batteries with a total potential difference of
23 V and a total energy storage of 1.8×107 J.
If the electric motor draws 7.0 kW, what is
the current delivered to the motor?
Answer in units of A.
012 (part 2 of 2)
If the electric motor draws 7.0 kW as the car
moves at a steady speed of 24.0 m/s, how far
will the car travel before it is "out of juice"?
Answer in units of m.
Transcribed Image Text:011 (part 1 of 2) An electric car is designed to run on a bank of batteries with a total potential difference of 23 V and a total energy storage of 1.8×107 J. If the electric motor draws 7.0 kW, what is the current delivered to the motor? Answer in units of A. 012 (part 2 of 2) If the electric motor draws 7.0 kW as the car moves at a steady speed of 24.0 m/s, how far will the car travel before it is "out of juice"? Answer in units of m.
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