The kinetic energy doubles and it goes twice as far unles the resistance against it is increased (e.g Friction,Gravity,Other unbalanced forces)
well im not 100% sure but id probably say kinetic energy.
Since energy is ALWAYS conserved, anything that happens is an "example". For example, an object just sitting around. However, it is usually more interesting to analyze what happens when one type of energy is converted to another. For example, if a car brakes, the car's kinetic energy is converted to heat (in the brakes); when you throw an object up, kinetic energy is converted to potential energy; when it falls back down, the potential energy is converted back to kinetic energy; and if in this example there is air resistance, part of the kinetic energywill be converted to heat.
The summation of potential and kinetic energy is constant
kinetic energy=1/2 x mass x velocity^2 so if you increase the mass or the speed that you throw it the kinetic energy will be increased.
the energy in an object about to fall is potential energy then kinetic energy because when the object is not falling, it has potential energy but when it's actually falling, it has kinetic energy.
If you throw it, it will briefly have kinetic energy. Kinetic energy is calculated as (1/2) mass x velocity2, so when an object is at reast, it will NOT have kinetic energy.
well im not 100% sure but id probably say kinetic energy.
Since energy is ALWAYS conserved, anything that happens is an "example". For example, an object just sitting around. However, it is usually more interesting to analyze what happens when one type of energy is converted to another. For example, if a car brakes, the car's kinetic energy is converted to heat (in the brakes); when you throw an object up, kinetic energy is converted to potential energy; when it falls back down, the potential energy is converted back to kinetic energy; and if in this example there is air resistance, part of the kinetic energywill be converted to heat.
Kinetic Energy is moving energy. Here's a small experiment: 1. Throw a ball in the air (Straight up) 2. Watch it 3. When starts falling down, that's kinetic energy
The summation of potential and kinetic energy is constant
Kinetic Energy is moving energy. Here's a small experiment: 1. Throw a ball in the air (Straight up) 2. Watch it 3. When starts falling down, that's kinetic energy
kinetic energy=1/2 x mass x velocity^2 so if you increase the mass or the speed that you throw it the kinetic energy will be increased.
the energy in an object about to fall is potential energy then kinetic energy because when the object is not falling, it has potential energy but when it's actually falling, it has kinetic energy.
the ball will have kinetic energy and potential energy.
Kinetic energy, momentum, gravity.
Sure, we do it every time we throw anything.
When ball is in the hand, it possesses internal energy. We give it kinetic energy when we throw it up and its kinetic energy decreases as it gains height.The kinetic energy turns to gravitational potential energy which reaches its maximum when it reaches its highest point. At that point the ball stops and then it falls.Its gravitational energy turns to kinetic energy as it falls. When it falls, its some energy turns to heat energy.When the balls hits the ground sound energy is produced and heat is given. The final energy which the body possesses is internal energy.