actually in our daily life experience electric force or u can say electromagnetic force is more powerful than gravitational force. electromagnetic force is about 10^59 times stronger than gravitational force...
but in light of string theory or m theory gravitational force is also as strong as electromagnetic force in multidimensional universe.
for more info.- watch the documentary movie 'the elegant universe' by 'brian greene
electric forces can be attractive or repulsive, whereas gravitational forces are only attractive.
Electro-magnetism, or the electromotive force - EMF.
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.
No. Both forces obey an inverse-square law, so the ratio of electric to gravitational force will always be the same, for the same pair of particles - no matter the distance.No. Both forces obey an inverse-square law, so the ratio of electric to gravitational force will always be the same, for the same pair of particles - no matter the distance.No. Both forces obey an inverse-square law, so the ratio of electric to gravitational force will always be the same, for the same pair of particles - no matter the distance.No. Both forces obey an inverse-square law, so the ratio of electric to gravitational force will always be the same, for the same pair of particles - no matter the distance.
Gravitational force field, electric force field, magnetic force field.
electric forces can be attractive or repulsive, whereas gravitational forces are only attractive.
Electrical forces.
In case of electric force there are both repulsive and attractive. But in case of gravitational force, only attractive force. Electrical force between electric charges. Gravitational force between masses. In electric force we use a constant known as permittivity of the medium. But in gravitational force a universal constant known as Gravitational constant is used. Electrical force is very much greater than gravitational force.
Electro-magnetism, or the electromotive force - EMF.
The newton is a unit of force. Examples of forces are gravitational force, electric forces, magnetic forces, forces caused by pressure.
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.
Electric and gravitational and derivatives of electric force such as Van Der Waals forces.
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.
No. Both forces obey an inverse-square law, so the ratio of electric to gravitational force will always be the same, for the same pair of particles - no matter the distance.No. Both forces obey an inverse-square law, so the ratio of electric to gravitational force will always be the same, for the same pair of particles - no matter the distance.No. Both forces obey an inverse-square law, so the ratio of electric to gravitational force will always be the same, for the same pair of particles - no matter the distance.No. Both forces obey an inverse-square law, so the ratio of electric to gravitational force will always be the same, for the same pair of particles - no matter the distance.
The gravitational force is only attractive. Electric and magnetic forces can be both attractive and repulsive.
Gravitational force field, electric force field, magnetic force field.
Gravitational Forces was created on 2001-08-07.