The electric and gravitational forces both operate via a field around the source of the force. These fields act across a distance, and the forces act without contact between the affected objects. Additionally, the forces are proportional to the inverse square of the distance between the two objects. Also, the two forces travel at the speed of light.
gravitation only attracts, while electrical forces attract when the electrical charges are opposite and repel if the charges are similar. Thus, gravitation is considered a monopole force, while electrostatics is a dipole force.
However, the concept of dark energy, which seem
The electric field can be set up by either positive or negative charge, and
electrostatic forces can be attractive or repulsive. The gravitational field is
always attractive, since negative mass has never been observed.
Past that difference, the math of electric and gravitational fields is identical.
We all feel the gravitational force of the earth as it "pulls" down. One might think that the electric force must be negligible because we don't "feel" it.
The most significant result of the electric force is that atomic nuclei are surrounded by a balancing number of electrons. These electrons, in turn, are shared among molecules.
There is another important effect of electric force: repulsion of like charges. This prevents atoms from getting too close together. It is why you cannot "squeeze" solids, nor compress liquids easily.
So the electric force is what stops you when you land after jumping up.
Electric force is created by the attraction or repulsion of two charged bodies.
Gravitational force is created by two bodies being attracted to each other due each body being caught in each other's gravitational field.
Gravitational force is the result of masses ( Fg= GmM/r^2) and electric forces is the result of charges Fe = kqQ/ r^2).
gravitational force.
Electric charge
electrostatic force is not a contact force it is force at a distance likely to that of gravitational force.
Gravitational force field, electric force field, magnetic force field.
Electric force between electric charges where as the gravitational force is between the masses. Electric force is of two types both attractive and repulsive as like charges repel and unlike charges attract. But gravitational force is of only attractive. Electric force between electric charges. So the constant of proportionality has the electric permittivity property. But in case of gravitation, universal gravitation constant plays the equivalent role. It will be the same irrespective of the medium. In case of electric field, permittivity of the medium differ from each other. THe weakest force is the gravitational force where as the electric force would be comparativeley larger. Relatively moving electric field would bring magnetic field. But moving gravitational field does not produce any such field.
gravitational force.
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.
Electric charge
The so-called "strong force". It is, precisely, a force between nucleons (protons and neutrons), acts only at very short distances, and is a different force from the better-known electric, magnetic and gravitational forces.The so-called "strong force". It is, precisely, a force between nucleons (protons and neutrons), acts only at very short distances, and is a different force from the better-known electric, magnetic and gravitational forces.The so-called "strong force". It is, precisely, a force between nucleons (protons and neutrons), acts only at very short distances, and is a different force from the better-known electric, magnetic and gravitational forces.The so-called "strong force". It is, precisely, a force between nucleons (protons and neutrons), acts only at very short distances, and is a different force from the better-known electric, magnetic and gravitational forces.
Electric and gravitational and derivatives of electric force such as Van Der Waals forces.
electrostatic force is not a contact force it is force at a distance likely to that of gravitational force.
Gravitational force field, electric force field, magnetic force field.
Electric force between electric charges where as the gravitational force is between the masses. Electric force is of two types both attractive and repulsive as like charges repel and unlike charges attract. But gravitational force is of only attractive. Electric force between electric charges. So the constant of proportionality has the electric permittivity property. But in case of gravitation, universal gravitation constant plays the equivalent role. It will be the same irrespective of the medium. In case of electric field, permittivity of the medium differ from each other. THe weakest force is the gravitational force where as the electric force would be comparativeley larger. Relatively moving electric field would bring magnetic field. But moving gravitational field does not produce any such field.
The gravitational force is only attractive. Electric and magnetic forces can be both attractive and repulsive.
its is different ok :)
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
The force will always be gravitational. In addition we might have magnetic force, and electric force.?Regards.