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Static electromagnetic force is many, many billions of times stronger than gravitational force.
Yes. An elephant has a greater mass than a mouse and therefore experiences more gravitational force.
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
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.
It depends on the mass. The higher the mass the higher the gravitational force. Usually big things have higher masses than small things so the answer is yes, big things (usually) have a higher gravitational force than small things.
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.
The gravitational force on Earth is six times greater than that on the moon.
Of course. When you wave a charged comb over bits of tissue on the table, they jump up off the table and stick to the comb. The electrostatic field of the comb must be attracting them upward with greater force than the gravitational field pulling them down.
Static electromagnetic force is many, many billions of times stronger than gravitational force.
Absolutely not.
The gravitational force of the sun is many thousands of times greater than that of Earth. This is due to the enormous difference in mass between the two.
Yes. An elephant has a greater mass than a mouse and therefore experiences more gravitational force.
Of course. Rub a plastic comb on your shirt, than pass it over bits of tissue on the table. The bits of tissue jump up off the table and stick to the comb. The electrostatic field of the comb is pulling them upward with greater force than the gravitational field of the entire earth pulling them down.
The gravitational force depends on the distance.
No. The mass of electrons is so small that the repulsion due to their equal electric charges is much greater than the gravitational attraction between them, at any separation distance.
Of course. Rub a plastic comb on your shirt, than pass it over bits of tissue on the table. The bits of tissue jump up off the table and stick to the comb. The upward electrostatic force between the tissue and the comb is greater than the downward gravitational force between the tissue and the whole earth.
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