A car accelerates from rest to . The energy spent in this process is . The energy required to accelerate the car from to is . The value of is _____
- A
- B
- C
- D
A car accelerates from rest to . The energy spent in this process is . The energy required to accelerate the car from to is . The value of is _____
Correct answer:C
Standard Method
Given: A car accelerates from rest to and the energy spent is . The energy required to accelerate it from to is compared with .
Find: The relation between the two energies and the correct option.
The kinetic energy is
For motion from rest to ,
For speed , the kinetic energy is
Hence the energy required to go from to is
Using ,
Therefore, the required value is , so the correct option is C. The answer key disagrees with the solution, and the solution has been followed.
Ratio Using $$v^2$$ Dependence
Given: Kinetic energy is proportional to .
Find: The ratio of energy intervals.
Since
energy from rest to is proportional to
and energy from to is proportional to
So,
Hence,
Therefore, the correct option is C.
Using instead of . This is wrong because kinetic energy depends on the square of speed. Always start from .
Taking the energy from to as the total kinetic energy at . This is wrong because the question asks for the increase in energy, so subtract the kinetic energy at from that at .
Assuming doubling speed doubles kinetic energy. This is wrong because doubling speed makes kinetic energy four times, not twice. Then the interval from to becomes three times the initial energy from rest to .
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