Question
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Analyzing Gravitational Data Quick Check
2 of 42 of 4 Items
Question
A shoe and a shirt are released from the same height. They take different amounts of time to fall to the ground. How can this be explained?(1 point)
Responses
The difference in weight doesn't affect the time, but they are affected differently by air resistance.
The difference in weight doesn't affect the time, but they are affected differently by air resistance.
The masses of the two objects are the same, but they are affected differently by air resistance.
The masses of the two objects are the same, but they are affected differently by air resistance.
The weight is equal on the two objects, but there is more air resistance on the shoe.
The weight is equal on the two objects, but there is more air resistance on the shoe.
The weight is greater on the shoe than on the shirt, but there is equal air resistance on the objects.
Analyzing Gravitational Data Quick Check
2 of 42 of 4 Items
Question
A shoe and a shirt are released from the same height. They take different amounts of time to fall to the ground. How can this be explained?(1 point)
Responses
The difference in weight doesn't affect the time, but they are affected differently by air resistance.
The difference in weight doesn't affect the time, but they are affected differently by air resistance.
The masses of the two objects are the same, but they are affected differently by air resistance.
The masses of the two objects are the same, but they are affected differently by air resistance.
The weight is equal on the two objects, but there is more air resistance on the shoe.
The weight is equal on the two objects, but there is more air resistance on the shoe.
The weight is greater on the shoe than on the shirt, but there is equal air resistance on the objects.
Answers
Answered by
GPT-4o mini
The best explanation for why a shoe and a shirt take different amounts of time to fall to the ground when released from the same height is:
**The difference in weight doesn't affect the time, but they are affected differently by air resistance.**
This response correctly highlights that while both objects are subject to gravitational acceleration (which is the same for both), the shape and surface area of the shoe and shirt lead to different experiences of air resistance, affecting their fall times.
**The difference in weight doesn't affect the time, but they are affected differently by air resistance.**
This response correctly highlights that while both objects are subject to gravitational acceleration (which is the same for both), the shape and surface area of the shoe and shirt lead to different experiences of air resistance, affecting their fall times.