True.
When a golf ball is dropped, it gains potential energy due to gravity. As it hits the pavement, this potential energy is converted into kinetic energy, causing the ball to bounce back up. The elasticity of the ball and the pavement determine how high it will bounce.
Since no energy was lost, we can conclude that it was an elastic collision.
The force is that of it hitting the pavement since every action has an equal and opposite reaction. or if you want a more precise answer it is the weak force which keeps the atoms separate and then makes it go up because the atoms are to close.
When a ball is dropped and bounces, potential energy is converted into kinetic energy as it falls. Upon impact with the ground, some of the kinetic energy is converted into elastic potential energy as the ball compresses. This elastic potential energy is then converted back into kinetic energy as the ball bounces back up.
Yes, the height from which a ball is dropped affects how high it bounces back. The higher the drop height, the higher the bounce due to the increased potential energy the ball gains from the greater height.
When a golf ball is dropped, it gains potential energy due to gravity. As it hits the pavement, this potential energy is converted into kinetic energy, causing the ball to bounce back up. The elasticity of the ball and the pavement determine how high it will bounce.
Since no energy was lost, we can conclude that it was an elastic collision.
The force is that of it hitting the pavement since every action has an equal and opposite reaction. or if you want a more precise answer it is the weak force which keeps the atoms separate and then makes it go up because the atoms are to close.
When a ball is dropped and bounces, potential energy is converted into kinetic energy as it falls. Upon impact with the ground, some of the kinetic energy is converted into elastic potential energy as the ball compresses. This elastic potential energy is then converted back into kinetic energy as the ball bounces back up.
Yes, the height from which a ball is dropped affects how high it bounces back. The higher the drop height, the higher the bounce due to the increased potential energy the ball gains from the greater height.
A ball bounces because of the conservation of energy. When a ball is dropped, it gains potential energy. When it hits the ground, this energy is converted into kinetic energy, causing the ball to bounce back up until all the energy is dissipated.
Yes, a force is needed to make the golf ball bounce up after it hits the pavement. When the ball makes contact with the ground, the ground exerts an upward force on the ball, causing it to bounce back up. This force is known as the normal force.
A rubber ball typically bounces the most when dropped on a hard surface. Rubber balls are designed to compress upon impact and then quickly regain their shape, allowing them to bounce back with maximum energy.
When a ball is dropped, some of its energy is lost to the surroundings in the form of heat and sound, causing the ball to not bounce back to its original height. This loss of energy is due to factors like air resistance, deformation of the ball upon impact, and friction with the surface it bounces on.
75%
The higher the ball is dropped from, the higher it will bounce back. This is due to potential energy converting to kinetic energy upon impact with the ground, propelling the ball higher when dropped from greater heights. Ultimately, the bounce height depends on factors like gravity, air resistance, and the material of the ball.
.. You need the height of the building to figure it out..?