In a vacuum, there is no air resistance to slow down the motion of objects. Both the feather and the elephant would fall at the same rate due to gravity, as there is no force acting against their downward acceleration. This is why they would fall at the same time in a vacuum, regardless of their size or weight.
For a feather and a ball to fall at the same rate in a vacuum, they need to experience the same gravitational force acting on them. This means there is no air resistance to slow down the feather, and they can both accelerate similarly due to gravity.
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.
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.
In a vacuum, both a brick and a feather would fall at the same rate and touch the ground at the same time because there is no air resistance to slow them down. This is because in a vacuum, all objects fall at the same rate regardless of their masses.
In a vacuum, there is no air resistance to slow down the motion of objects. Both the feather and the elephant would fall at the same rate due to gravity, as there is no force acting against their downward acceleration. This is why they would fall at the same time in a vacuum, regardless of their size or weight.
For a feather and a ball to fall at the same rate in a vacuum, they need to experience the same gravitational force acting on them. This means there is no air resistance to slow down the feather, and they can both accelerate similarly due to gravity.
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.
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.
In a vacuum, both a brick and a feather would fall at the same rate and touch the ground at the same time because there is no air resistance to slow them down. This is because in a vacuum, all objects fall at the same rate regardless of their masses.
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.
In a vacuum, both the feather and the stone would fall at the same rate due to the absence of air resistance. This is known as the principle of equivalence, where all objects fall at the same rate regardless of their mass.
the object with the greater mass will fall to the ground first. if you think of a hammer and a feather the hammer will obviously fall first. unless your in a vacuum. then the objects fall at an equal rate!
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 the acceleration gravity on Earth is constant, 9.86 m/sec^2.
theoritically yes. if they are placed in a vacuum packed room with no air, just empty space, they can fall at the same rate. if they fell in air, the aerodynamics wouldn't equal out, so the quarter would fall faster.
To demonstrate a feather falling at the same rate as a bowling ball on Earth, you can create a vacuum chamber to remove air resistance. When both the feather and the bowling ball are dropped in the vacuum, they will fall at the same rate due to the absence of air drag affecting their descent, as demonstrated by Galileo's famous experiment on falling bodies.