The lead weight and feather would fall at the same rate in a vacuum where there is no air resistance to slow them down. In the absence of air resistance, all objects experience the same acceleration due to gravity, regardless of their mass. This is demonstrated in Galileo's famous experiment at the Leaning Tower of Pisa.
In a vacuum, a feather and a piece of paper would fall at the same rate due to gravity. However, in Earth's atmosphere, the feather would fall more slowly due to air resistance.
Because a feather has more air resistance, it normally falls slower, but in a vacuum, there is not air resistance so they fall at the same rate. Think of it as a feather and an elephant falling in space.
In a vacuum, a feather and a quarter would fall at the same rate due to gravity's influence. However, in normal conditions with air resistance, the feather falls slower since it has a larger surface area, creating more air resistance.
A feather and a stone do not fall at the same rate. The feather falls at a slower rate because a feather is subject to the effects of air resistance (it's air resistance to weight ratio is small. A stone has a large air resistance to weight ratio) . The feather may also be subject to blowing winds. Think of 2 pieces of wood. One is 10 lbs and is a sheet, the other is 5 lbs and a block. The weight does not change how fast they fall but the resistance to the air does and so the 10lb sheet of wood takes longer to fall.
No, both 1kg of lead and 1kg of feather would weigh the same in a vacuum because weight depends on mass, and both objects have a mass of 1kg. Gravity affects weight, but in a vacuum, there is no air to provide resistance, so both objects would fall at the same rate.
If they were dropped in a container from which the air had been removed.
Mexican feather grass has a tendency to fall over because its long, delicate stems are not very strong and can easily bend or break under their own weight or in windy conditions.
That depends on the weight and sise of the feather In a vacuum it would fall as fast as a canon ball. In the atmasphere friction through the air would slow it so sise and weight and shape comes into it.
In a vacuum, a feather and a piece of paper would fall at the same rate due to gravity. However, in Earth's atmosphere, the feather would fall more slowly due to air resistance.
Because a feather has more air resistance, it normally falls slower, but in a vacuum, there is not air resistance so they fall at the same rate. Think of it as a feather and an elephant falling in space.
In a vacuum, a feather and a quarter would fall at the same rate due to gravity's influence. However, in normal conditions with air resistance, the feather falls slower since it has a larger surface area, creating more air resistance.
it means that you have been so shocked that if someone tapped you with a feather you would fall down
A feather and a stone do not fall at the same rate. The feather falls at a slower rate because a feather is subject to the effects of air resistance (it's air resistance to weight ratio is small. A stone has a large air resistance to weight ratio) . The feather may also be subject to blowing winds. Think of 2 pieces of wood. One is 10 lbs and is a sheet, the other is 5 lbs and a block. The weight does not change how fast they fall but the resistance to the air does and so the 10lb sheet of wood takes longer to fall.
No, both 1kg of lead and 1kg of feather would weigh the same in a vacuum because weight depends on mass, and both objects have a mass of 1kg. Gravity affects weight, but in a vacuum, there is no air to provide resistance, so both objects would fall at the same rate.
because feather's weight is negligible as compare to force of gravityA feather will fall through the air more slowly than a brick because it is lighter than a brick and it's small fur on it will slow it down
Yes, in a vacuum both a feather and a steel ball would fall simultaneously because there is no air resistance to impede their free fall. This means they would both fall at the same rate due to gravity, as described by Newton's laws of motion.
Yes - If they have the same weight. No - if they are different weights... imagine dropping a feather and a stone.