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If you were standing on moon with a ball in your hand and you let go of it the ball would do what?
The ball would float and slowly fall to the surface of the moon due to the moon's weaker gravity compared to Earth.
Does a golf ball fall when dropped on the Moon?
Yes, a golf ball will fall when dropped on the Moon due to the presence of gravity. However, the acceleration of gravity on the Moon is weaker than on Earth, so the ball will fall more slowly.
What happens if we throw a ball in space?
The ball will not be affected by drag. Only gravity will affect its trajectory.
Does a ball pen floats in space?
Everything, including ball point pens, floats in space because there is no gravity acting upon it.
An astronaut throws a ball on the moon you throw an identical ball on earth using the same force which ball will travel a greater distance before it hits the ground?
The ball thrown on the moon would travel a greater distance before hitting the ground due to the moon's lower gravity compared to Earth. The lower gravity allows the ball to stay in the air for a longer time and cover more distance before falling back down compared to the ball thrown on Earth with its higher gravity.
Does gravity affect a soccer ball when it falls?
Yes, gravity affects a soccer ball when it falls. The force of gravity causes the ball to accelerate towards the ground at a rate of 9.8 m/s^2. This acceleration causes the ball to pick up speed as it falls.
Why the soccer ball falls back to earth?
gravity
When a ball is dropped it falls due to the force of friction?
Actually, when a ball is dropped, it falls due to the force of gravity acting on it. Friction actually works to slow down the ball's descent once it makes contact with a surface.
How does the force of gravity affect the speed of a ball falling?
The force of gravity affects the speed of a ball falling by pulling it downward, causing it to accelerate as it falls. The greater the force of gravity, the faster the ball will fall.
What happen when the ball was released?
We do not know as we were not there to see it. However a released ball usually falls in the local gravity field.
A ball falling through the air has?
acceleration due to gravity acting on it, which causes it to increase in speed as it falls. The force of air resistance also acts on the ball, gradually slowing it down. Eventually, the ball reaches terminal velocity, where the force of gravity is equal to the force of air resistance and the ball falls at a constant speed.
Why does a ball fall when you drop it?
The ball falls because of the force of gravity, which pulls the ball towards the Earth's center. When you release the ball, there are no other forces acting on it to keep it in place, so it accelerates downwards due to gravity.
Does the air in a ball affect how fast it falls?
No, the air inside a ball does not affect how fast it falls. The rate at which an object falls is determined by gravity and the air resistance it encounters, not the properties of the air contained within the object.
What will happen to the balls velocity as it falls farther below the point of relase?
As the ball falls farther below the point of release, its velocity will increase. This is due to the acceleration caused by gravity pulling the ball downward. The acceleration will cause the ball to speed up as it falls.
What type of energy is it when you throw a ball upward and it falls?
The ball has both potential energy when it is thrown upward (due to its position) and kinetic energy when it falls (due to its motion). As it falls, potential energy is converted into kinetic energy.
How much work does the force of gravity do on a 5.45-kg bowling ball that falls a distance of 0.755m?
41.1j
How you can trafer the energy from when the ball is thrown to when the ball reaches the highest height and finally as the ball falls down to the ground?
When the ball is thrown, energy is transferred from the person's muscles to the ball, giving it kinetic energy. As the ball reaches the highest height, this kinetic energy is converted into potential energy due to the upward motion against gravity. When the ball falls back down, this potential energy is converted back into kinetic energy as the ball accelerates downward due to gravity.
