Want this question answered?
Gravitational energy is a kind of potential energy - work done against a force.Gravitational energy is a kind of potential energy - work done against a force.Gravitational energy is a kind of potential energy - work done against a force.Gravitational energy is a kind of potential energy - work done against a force.
A body A of mass m is placed in the gravitational field of a body B of mass M. The gravitational potential of body B at a point in the field is the work done is bringing unit mass from infinity to that point and is independent of body A. On the other hand, the gravitational potential energy of body A is the energy possessed by it due to its position in the field. In fact, Gravitational potential energy = mass of body(A) x gravitational potential
A gravitational field works by creating a velocity profile that masses in the field follow. For example the Earth has a velocity of 29814m/s at the radius of 150Gigameters from the Sun. This This velocity V= Squareroot[GM/r] this velocity is independent of the Earth and just depends on the Gravitational field of the Sun. The Direction of the Velocity is angled to maintain the conservation of energy and balance the centripetal and centrifugal forces.
Yes, work= -GmM/R This work is energy that is stored in the gravitational field of the two masses and is called the gravitational potential energy of the two masses when they are separated by a distance R: Ep= -GMm/R
Gravitational Forces,Magnetic Forces,Spring Forces,Electric Force....... They do not depend on the path followed,they depend on initial and final point of work.
wedding planers do not work for a company, they are independat contractors and they to plan for weddings by themselves.
Gravitational energy is a kind of potential energy - work done against a force.Gravitational energy is a kind of potential energy - work done against a force.Gravitational energy is a kind of potential energy - work done against a force.Gravitational energy is a kind of potential energy - work done against a force.
A body A of mass m is placed in the gravitational field of a body B of mass M. The gravitational potential of body B at a point in the field is the work done is bringing unit mass from infinity to that point and is independent of body A. On the other hand, the gravitational potential energy of body A is the energy possessed by it due to its position in the field. In fact, Gravitational potential energy = mass of body(A) x gravitational potential
Gravitational energy is the potential energy associated with gravitational force. If an object falls from one point to another point inside a gravitational field, the force of gravity will do positive work on the object, and the gravitational potential energy will decrease by the same amount.
A gravitational field works by creating a velocity profile that masses in the field follow. For example the Earth has a velocity of 29814m/s at the radius of 150Gigameters from the Sun. This This velocity V= Squareroot[GM/r] this velocity is independent of the Earth and just depends on the Gravitational field of the Sun. The Direction of the Velocity is angled to maintain the conservation of energy and balance the centripetal and centrifugal forces.
yes we do work because work is done against the gravitational field in this case which is equal to w=mgh.
Yes, work= -GmM/R This work is energy that is stored in the gravitational field of the two masses and is called the gravitational potential energy of the two masses when they are separated by a distance R: Ep= -GMm/R
Yes we do work because work is done against the gravitational field in this case which is equal to w=mgh
Gravitational Forces,Magnetic Forces,Spring Forces,Electric Force....... They do not depend on the path followed,they depend on initial and final point of work.
Gravitational Forces,Magnetic Forces,Spring Forces,Electric Force....... They do not depend on the path followed,they depend on initial and final point of work.
Yes to both, relative to Earth, because work was done to lift it in Earth's gravitational field and to impart speed to it.
Potential energy is energy stored when work is done in a conservative force field. Basically, this means the energy cna be recovered. For example, this might be a gravitational field. You require energy (work) to push something up, but you can recover work when it falls back down. Another example of potential energy is energy stored in a spring.