What is Potential energy...spam
Answers
Answer:
Potential energy, stored energy that depends upon the relative position of various parts of a system. ... A spring has more potential energy when it is compressed or stretched. A steel ball has more potential energy raised above the ground than it has after falling to Earth.
Explanation:
Large\blue{ \underline \orange{ \mathfrak{ \text{M}ark \: { \text{A}s \: { \text{ B}rainliest}}}}}
Explanation:
hlo mate here's your answer
Potential energy is the latent energy in an object at rest, and is one of two forms of energy. The other form, kinetic energy, is the energy expressed by an object in motion. Potential energy is a core concept of any physics-based discussion, and one of the most influential variables in the formulas that describe our known universe.
Potential energy is the latent energy in an object at rest, and is one of two forms of energy. The other form, kinetic energy, is the energy expressed by an object in motion. Potential energy is a core concept of any physics-based discussion, and one of the most influential variables in the formulas that describe our known universe.Potential energy is essentially what it sounds like, though there are a few intricacies involved. The actual potential energy of an object depends on its position relative to other objects. For example, a brick has more potential energy suspended off of a two-story building than it does resting on the ground. That's because the brick's relative position to the Earth gives it more energy. Two bricks next to each other don't give each other more energy though, because there is no force acting on them.
Potential energy is the latent energy in an object at rest, and is one of two forms of energy. The other form, kinetic energy, is the energy expressed by an object in motion. Potential energy is a core concept of any physics-based discussion, and one of the most influential variables in the formulas that describe our known universe.Potential energy is essentially what it sounds like, though there are a few intricacies involved. The actual potential energy of an object depends on its position relative to other objects. For example, a brick has more potential energy suspended off of a two-story building than it does resting on the ground. That's because the brick's relative position to the Earth gives it more energy. Two bricks next to each other don't give each other more energy though, because there is no force acting on them.The same principle can be applied on any scale, be it galactic or atomic. Indeed, atoms possess potential energy as well, though their constant movement shifts much of their potential energy into kinetic energy.
Potential energy is the latent energy in an object at rest, and is one of two forms of energy. The other form, kinetic energy, is the energy expressed by an object in motion. Potential energy is a core concept of any physics-based discussion, and one of the most influential variables in the formulas that describe our known universe.Potential energy is essentially what it sounds like, though there are a few intricacies involved. The actual potential energy of an object depends on its position relative to other objects. For example, a brick has more potential energy suspended off of a two-story building than it does resting on the ground. That's because the brick's relative position to the Earth gives it more energy. Two bricks next to each other don't give each other more energy though, because there is no force acting on them.The same principle can be applied on any scale, be it galactic or atomic. Indeed, atoms possess potential energy as well, though their constant movement shifts much of their potential energy into kinetic energy.How to calculate potential energy
Potential energy is the latent energy in an object at rest, and is one of two forms of energy. The other form, kinetic energy, is the energy expressed by an object in motion. Potential energy is a core concept of any physics-based discussion, and one of the most influential variables in the formulas that describe our known universe.Potential energy is essentially what it sounds like, though there are a few intricacies involved. The actual potential energy of an object depends on its position relative to other objects. For example, a brick has more potential energy suspended off of a two-story building than it does resting on the ground. That's because the brick's relative position to the Earth gives it more energy. Two bricks next to each other don't give each other more energy though, because there is no force acting on them.The same principle can be applied on any scale, be it galactic or atomic. Indeed, atoms possess potential energy as well, though their constant movement shifts much of their potential energy into kinetic energy.How to calculate potential energyEnergy refers to the ability of an object or system to perform work. It comes in many forms, including mechanical, thermal, chemical, nuclear and others. Work refers to the transfer of energy from one object to another, and has a close relationship with kinetic energy. Power is the rate at which energy transfers between two or more objects. These three concepts are closely related, and understanding each concept requires the context of
i hope its help you mark as brainlist and give thanks