When an apple falls to the ground, the apple's beginning kinetic energy and ending gravitational potential energy are both equal to each other. This transfer of energy occurs due to the conservation of energy principle, where the potential energy of the apple at the top of the fall is converted into kinetic energy as it falls to the ground.
Eating an apple converts the solar energy stored in the apple's molecules into chemical energy. The process involves breaking down the apple's sugars and other nutrients through digestion, releasing energy that our bodies can use for various functions.
chemical energy
Kinetic energy.
The potential energy in an apple on the branch of a tree is gravitational potential energy. This potential energy is due to the apple's position in the Earth's gravitational field. As the apple is lifted higher on the tree, its gravitational potential energy increases.
kinetic
Eating an apple involves converting the potential energy stored in the apple into kinetic energy that powers various processes in your body, such as digestion and metabolism. The energy obtained from consuming the apple is ultimately used as fuel for your body's functions.
If a suns ray hits an apple what energy would that be
When digesting an apple, chemical energy is released. This energy comes from breaking down the carbohydrates, proteins, and fats in the apple into smaller molecules that the body can then use for energy production.
In an apple in a tree, potential energy forms include gravitational potential energy due to the apple's height above the ground, and elastic potential energy from the apple's position relative to the tree branch it's attached to.
When you eat an apple, your body converts the chemical energy stored in the apple into mechanical and thermal energy through the process of digestion and metabolism. This energy is then used by your muscles to contract and throw a ball, with some energy being lost as heat in the process. Ultimately, the energy from the apple is transformed into kinetic energy of the ball as it moves.
Apple