Energy from the sun is delivered in the form of electromagnetic energy. It is not potential energy in the usual sense of the term potential energy which is usually taken to mean energy that is a consequence of the position of an object.
The energy that is emitted from the sun and travel through space is electromagnetic energy. The electromagnetic energy of sunlight (or any other light) is manifested entirely in the oscillating electric and magnetic fields of the light.
Note: There are variants in the definition of potential energy which are broader than merely energy that is a consequence of position. The alternative definition can be stored energy and and energy not available for work.
The sun has both kinetic and potential energy. The kinetic energy comes from the constant nuclear reactions happening within its core, while the potential energy is derived from the gravitational forces holding the sun's mass together.
Both
there is lot of potential energy in sun. We are not using it full.
While getting farther from the Sun in its orbit, an asteroid (or other object) will gain potential energy, and lose kinetic energy.
When you lift an object, you are providing it with potential energy. This potential energy is due to the object's position in a gravitational field, and it can be converted into kinetic energy if the object is released and falls.
The sun has both kinetic and potential energy. The kinetic energy comes from the constant nuclear reactions happening within its core, while the potential energy is derived from the gravitational forces holding the sun's mass together.
86% in sun
No, Sun light rays are neither of these things. The light of the Sun is electromagnetic energy.
Both
It is a combination of kinetic energy, and potential energy. Kinetic energy is related to the planet's movement; and the farther away a planet is from the Sun, the greater its potential energy.
At perihelion, the planet is closer to the Sun, and moves faster, that means that the potential energy is at a minimum, and the kinetic energy at a maximum. The sum of kinetic + potential energy, of course, remains constant.At perihelion, the planet is closer to the Sun, and moves faster, that means that the potential energy is at a minimum, and the kinetic energy at a maximum. The sum of kinetic + potential energy, of course, remains constant.At perihelion, the planet is closer to the Sun, and moves faster, that means that the potential energy is at a minimum, and the kinetic energy at a maximum. The sum of kinetic + potential energy, of course, remains constant.At perihelion, the planet is closer to the Sun, and moves faster, that means that the potential energy is at a minimum, and the kinetic energy at a maximum. The sum of kinetic + potential energy, of course, remains constant.
potential
The sun primarily has potential energy due to the gravitational forces that hold it together. This potential energy is released as heat and light energy through nuclear fusion reactions occurring in its core.
there is lot of potential energy in sun. We are not using it full.
No, Sun light rays are neither of these things. The light of the Sun is electromagnetic energy.
A comet has the greatest potential energy at its farthest point from the Sun, known as aphelion. At this location, the gravitational pull of the Sun is weaker, and the comet is at its maximum distance from the Sun. As the comet moves closer to the Sun in its elliptical orbit, its potential energy decreases while its kinetic energy increases due to the gravitational attraction.
Solar energy is defined as radiant energy. Radiant energy is electromagnetic energy that travels in transverse waves. There are differences in opinion on whether radiant energy is potential or kinetic energy.