Look at the formula for gravitational potential energy: PE = mgh. It is the product of mass, gravity, and difference in height. Therefore, those three factors are required.
They all have the same gravitational potential energies.
Potential energy is the available energy available to an object in order to perform "work". This can take the form of batteries and similar objects, but most frequently, it is used specifically in the context of motion.If you think about a roller coaster, at the top of the hill, it has potential energy. As it begins to descend, it changes to kinetic energy which causes the roller coaster car to accelerate down the hill.Stationary energy is known as potential energyit is the energy of shape and position
The four forces affecting matter are (in order of increasing strength): 1. Gravitational Force : hydraulic energy or water falls 2. Electromagnetic Force : electricity as secondary energy 3. Weak Nuclear Force: ionizing radiation4. Strong Nuclear Force: nuclear fissionWhenever there is a force, or more precisely a so-called "conservative force", there is an associated potential energy. Each of the fundamental forces have related potential energy; thus, there is gravitational, electrical & magnetical, and nuclear potential energy.I am not entirely sure about the weak force; but I assume it would be lumped together with the strong force, in the category of "nuclear energy".Chemical energy, as well as elastic energy, are also types of potential energy that are related to electrical forces.
The additional potential energy the reactants must gain in order to react
The additional potential energy the reactants must gain in order to react
They all have the same gravitational potential energies.
You need to have a weight and the mass of an object then you use the formula f=w=mg
Potential energy is the available energy available to an object in order to perform "work". This can take the form of batteries and similar objects, but most frequently, it is used specifically in the context of motion.If you think about a roller coaster, at the top of the hill, it has potential energy. As it begins to descend, it changes to kinetic energy which causes the roller coaster car to accelerate down the hill.Stationary energy is known as potential energyit is the energy of shape and position
The four forces affecting matter are (in order of increasing strength): 1. Gravitational Force : hydraulic energy or water falls 2. Electromagnetic Force : electricity as secondary energy 3. Weak Nuclear Force: ionizing radiation4. Strong Nuclear Force: nuclear fissionWhenever there is a force, or more precisely a so-called "conservative force", there is an associated potential energy. Each of the fundamental forces have related potential energy; thus, there is gravitational, electrical & magnetical, and nuclear potential energy.I am not entirely sure about the weak force; but I assume it would be lumped together with the strong force, in the category of "nuclear energy".Chemical energy, as well as elastic energy, are also types of potential energy that are related to electrical forces.
Because you have to do work on the pair ... add work to them ...in order to separate them.
Because in many situations the gravitational field doesn't show any dependence on time (excluding some situations of oscillating fields) it satisfies requirements for a system to be conservative (in order a system to be conservative it's potential energy should not have dependence on time).
The additional potential energy the reactants must gain in order to react
The additional potential energy the reactants must gain in order to react
No. Potential energy relates to an objects position on the earth, specifically it's altitude. Mechanical energy is a form of kinetic energy but it can occasionally be considered "work done" in a more general sense
the question is incomplete. in order to know the answer, we need to know how high is the swing from the ground.
Potential energy is energy that has the potential to be moved. Kinetic energy is energy in motion. eg. Potential energy could be like a fire extinguisher that is on the wall it has the potential to fall on the ground . An example of Kinetic energy is would be a moving car, it is in motion .
Yes, kinetic energy can change into potential energy. in order to do so the delta x would have to increase. for example if a skier were to go off a large jump, they would be using their kinetic energy to gain altitude and that would be increasing the potential energy, hope this helps, not being able to do so would be completely illogical