The gravitational kinetic energy.
When the ball falls down, the potential energy decreases (potential energy is greater at a greater height), but the kinetic energy (energy due to movement) will increase.
At it's lowest point it has only kinetic energy because it has to have a height in order to have potential energy
horizontal
Kinetic energy is the energy of motion; a thrown object has kinetic energy.
6.261 m/s
When the ball falls down, the potential energy decreases (potential energy is greater at a greater height), but the kinetic energy (energy due to movement) will increase.
At it's lowest point it has only kinetic energy because it has to have a height in order to have potential energy
horizontal
Kinetic energy is the energy of motion; a thrown object has kinetic energy.
the packaging increases the amount of garbage
Kinetic energy is at its maximum when the velocity of the ball is greatest. This will occur immediately upon release. Air resistance will slow the ball from this point and unless the ball falls back past its original starting height, it will never achieve a velocity greater than that with which it starts.
6.261 m/s
force thrown distance height thrown
There is no such thing as "interconversion of body" in this case. There are energy conversions; perhaps that's what you mean?
The body will move: * Because of its initial motion (the question states that it is thrown) * Because of gravity
Mechanical energy is the type of energy that is present in a barbell being lifted or a shot put being thrown.
Yes. Example: A ball thrown directly upwards; at any moment (except at its maximum height) it has velocity, and therefore kinetic energy. Also, at any moment (except when it touches the floor) it has gravitational potential energy (assuming you use the ground level as reference level).