An object is allowed to fall from a height above the earth, where is the radius of the earth. Its velocity when it strikes the earth’s surface, ignoring air resistance, will be:
- A
- B
- C
- D
An object is allowed to fall from a height above the earth, where is the radius of the earth. Its velocity when it strikes the earth’s surface, ignoring air resistance, will be:
Correct answer:A
Standard Method
Given: An object falls from a height above the earth, so its initial distance from the earth's centre is and final distance is . Air resistance is ignored.
Find: The velocity with which it strikes the earth's surface.
Use conservation of mechanical energy. The loss in gravitational potential energy is equal to the gain in kinetic energy.
This gives
Hence,
Therefore, the correct value of the speed is . The solution states "Option A" but this conflicts with the listed options; among the given options, corresponds to option B.
Energy Interpretation
The gravitational potential energy at distance from the earth's centre is
At the starting point, , and at the earth's surface, .
So,
The decrease in potential energy appears as kinetic energy:
Using , we get
Thus,
So the correct option from the listed choices is B.
Using the constant-acceleration formula with directly is incorrect because gravitational acceleration is not constant over such a large height. Use gravitational potential energy instead.
Taking the initial potential energy as and final as is wrong for planetary motion over large distances. The correct potential energy is measured from infinity.
Confusing the starting position as distance from the centre instead of height above the surface leads to the wrong radius. The object starts at distance from the earth's centre.
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