yes but its the citrus and acids in fruits that can produce electricity by sticking electrodes inside of the (try galvanized nails and copper strips)
Kinetic energy is energy from motion, so if an apple is moving, then it has kinetic energy. If not, then it does not.
Everything that is moving has Kinetic Energy
No. Because of it's position, hanging on a branch of the tree, the apple has potential energy ( PE = mgh ) and could convert that to kinetic energy ( KE = 1/2mV2 ) by falling from the tree.
An object that moves has kinetic energy. An object at rest doesn't.
chemical energy
Zero J
zero
Eating an apple will add to your energy stores; riding a bike will deplete them.
As it drops from a height, the potential energy of the apple transforms into kinetic energy. Once it lands in the garbage, the kinetic energy gets dissipated as thermal energy. As the core begins to decompose, the chemical energy in it gradually transforms into other chemical energy with the release of thermal energy as a byproduct.
Kinetic energy.
Its chemical energy.
kinetic
chemical energy
From gravitational potential energy to kinetic energy and if you want it until it drops onto the ground , (continue from kinetic energy) heat energy + sound energy.
Zero J
zero
As the apple falls, its potential energy decreases while its kinetic energy increases, until it lands, at which point it has maximum potential energy.
Eating an apple will add to your energy stores; riding a bike will deplete them.
As it drops from a height, the potential energy of the apple transforms into kinetic energy. Once it lands in the garbage, the kinetic energy gets dissipated as thermal energy. As the core begins to decompose, the chemical energy in it gradually transforms into other chemical energy with the release of thermal energy as a byproduct.
A skateboard rolling across the street A hockey puck sliding across the ice
Yes, as this equation makes it possible E=mc^2 . ------------> mass energy is different from potential energy An object has kinetic and potential energy (such as a falling apple) because commonly kinetic energy is converted to potential energy and vice versa due to conservation of energy. The sum of kinetic and potential energy needs to be taken for the total energy of the object.