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the sun because the sun is 27.9

Mercury is 0.38

venusis 0.90

mars is 0.38

jupiter is 2.53

saturn is 1.06

uranus is 0.90

neptune is 1.14

pluto is 0.08

moon is 0.17

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What has the most gravitational potential energy?

An object at a high altitude has the most gravitational potential energy, as potential energy is directly related to an object's height above a reference point. The higher an object is lifted against gravity, the more potential energy it has.


Does kenetic energy exceed Gravitational potential energy?

Yes, in most cases kinetic energy exceeds gravitational potential energy because kinetic energy is associated with the motion of an object, while gravitational potential energy is associated with the height of an object in a gravitational field. As an object moves, it typically gains kinetic energy and its gravitational potential energy decreases.


Where does the object have the most gravitational energy?

An object has the most gravitational potential energy at its highest point, such as when it is lifted off the ground. This is because the gravitational potential energy of an object is directly proportional to its height above a reference point, usually the ground level.


What would you expect to most influence the potential energy of an object?

The most influential factors on the potential energy of an object are its position in a gravitational field and the height at which it is located relative to a reference point. The higher an object is positioned in a gravitational field, the more potential energy it possesses.


How do you know if an object has the most potential energy?

An object has the most potential energy when it is at its highest position or farthest distance from the reference point. The potential energy of an object depends on its mass, height, and the gravitational field strength.

Related Questions

What has the most gravitational potential energy?

An object at a high altitude has the most gravitational potential energy, as potential energy is directly related to an object's height above a reference point. The higher an object is lifted against gravity, the more potential energy it has.


Does kenetic energy exceed Gravitational potential energy?

Yes, in most cases kinetic energy exceeds gravitational potential energy because kinetic energy is associated with the motion of an object, while gravitational potential energy is associated with the height of an object in a gravitational field. As an object moves, it typically gains kinetic energy and its gravitational potential energy decreases.


Where does the object have the most gravitational energy?

An object has the most gravitational potential energy at its highest point, such as when it is lifted off the ground. This is because the gravitational potential energy of an object is directly proportional to its height above a reference point, usually the ground level.


What would you expect to most influence the potential energy of an object?

The most influential factors on the potential energy of an object are its position in a gravitational field and the height at which it is located relative to a reference point. The higher an object is positioned in a gravitational field, the more potential energy it possesses.


How do you know if an object has the most potential energy?

An object has the most potential energy when it is at its highest position or farthest distance from the reference point. The potential energy of an object depends on its mass, height, and the gravitational field strength.


How does an objects mass affect its potential enegry?

There are different sorts of potential energy but the most common in physics is gravitational potential energy. An object of mass m has a potential energy of mgh where g is gravity (9.81 in metric units) and h is the height above ground.


At which point does he have the most gravitational potential energy?

It isn't clear what you mean with "he", but an object's gravitational potential energy is greatest at its highest position.


Would you expect mass to be the most influence the potential energy of an object?

Yes, the mass of an object does influence its potential energy, especially in gravitational potential energy. The greater the mass of an object, the more potential energy it will have when raised to a certain height.


Why is gravitational potential energy renewable?

It is renewable because you can always raise an object or raise yourself and gain gravitational potential energy. You cannot run out of gravitational potential energy and even now you have some of the the energy because gravity is always pulling you. It is just a matter of how much gravitational potential energy you have. Go on the top Mt. Everest and you will have more gravitational potential energy than most of the people in the world.


Why is gravitational energy potential?

It is renewable because you can always raise an object or raise yourself and gain gravitational potential energy. You cannot run out of gravitational potential energy and even now you have some of the the energy because gravity is always pulling you. It is just a matter of how much gravitational potential energy you have. Go on the top Mt. Everest and you will have more gravitational potential energy than most of the people in the world.


Why is kinetic energy always less than gravitational potential energy?

Kinetic energy is always less than gravitational potential energy because an object's kinetic energy is dependent on its velocity, while its gravitational potential energy is determined by its height above the ground. In most scenarios, the object is higher (has more potential energy) before it falls and accelerates, so the gravitational potential energy it loses is converted to kinetic energy, but it is never greater than its original potential energy.


Which object on the simulation pane most likely potential energy why?

The object that is higher up in the simulation pane most likely has more potential energy. This is because potential energy is based on an object's position relative to the ground, with higher positions having more potential energy due to gravitational effects.