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 greater on the shoe than on the shirt, but there is equal air resistance on the objects.
The weight is greater on the shoe than on the shirt, but there is equal air resistance on the objects.
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.
The difference in weight doesn't affect the time, but they are affected differently by air resistance.
The correct explanation is: The masses of the two objects are the same, but they are affected differently by air resistance.
To understand this, we need to consider two factors: weight and air resistance. Weight is the force exerted by gravity on an object, and it depends on the mass of the object. Air resistance is the force exerted by the air on an object moving through it.
Both the shoe and the shirt experience the same gravitational force because they are released from the same height. Therefore, their weight is the same.
However, the shoe and the shirt have different shapes and surface areas, which affects how air resistance acts on them. Air resistance depends on the size and shape of an object. In general, objects with larger surface areas experience more air resistance.
Assuming that the shoe has a larger surface area than the shirt, it will encounter more air resistance as it falls. This additional air resistance slows down the shoe, causing it to take a longer time to reach the ground compared to the shirt.
In summary, although the weight (gravity) is the same for both objects, the shoe and the shirt are affected differently by air resistance due to their different sizes and shapes, which explains why they take different amounts of time to fall to the ground.