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 force is much stronger than the gravitational force, typically by a factor of around 10^36. This is because electric forces involve interactions between charged particles, which are inherently stronger than interactions between particles that only have mass.
Electric force depends on the charge of the objects involved, analogous to mass in gravitational force. The greater the charge of the objects, the stronger the electric force between them.
It depends on the specific circumstances. In general, gravitational force is weaker than electric force because the electric force between charged particles is stronger and can dominate over gravitational force at small distances. However, gravitational force becomes more significant for very large masses or distances.
Gravitational force is the weakest universal force. It is significantly weaker than the electromagnetic and strong nuclear forces.
The electric force is stronger than the gravitational force because electric charges can be positive or negative, allowing for attractive and repulsive interactions, while gravity is always attractive. Additionally, the strength of the electric force is determined by the charge of the particles involved, which can be much larger than the masses involved in gravitational interactions.
The electric force is much stronger than the gravitational force, typically by a factor of around 10^36. This is because electric forces involve interactions between charged particles, which are inherently stronger than interactions between particles that only have mass.
Electric force depends on the charge of the objects involved, analogous to mass in gravitational force. The greater the charge of the objects, the stronger the electric force between them.
It depends on the specific circumstances. In general, gravitational force is weaker than electric force because the electric force between charged particles is stronger and can dominate over gravitational force at small distances. However, gravitational force becomes more significant for very large masses or distances.
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.
Gravitational force is the weakest universal force. It is significantly weaker than the electromagnetic and strong nuclear forces.
The electric force is stronger than the gravitational force because electric charges can be positive or negative, allowing for attractive and repulsive interactions, while gravity is always attractive. Additionally, the strength of the electric force is determined by the charge of the particles involved, which can be much larger than the masses involved in gravitational interactions.
The electric force between two protons is much stronger than the gravitational force between them. The electric force is about 10^36 times stronger than the gravitational force at the atomic scale. This is why charged particles interact primarily through electromagnetic forces and not gravitational forces.
Electric and gravitational and derivatives of electric force such as Van Der Waals forces.
Gravitational and electric forces are similar in that both are inverse square laws with distance, where the force decreases as distance increases. However, gravitational force acts between masses due to gravity, while electric force acts between charged particles due to electrostatic interactions. Gravitational force is always attractive and only has one type, while electric force can be attractive or repulsive and has positive and negative charges.
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.
Gravity and electromagnetism can be compared and contrasted. Both are fundamental forces in nature, but gravity is a long-range force that acts on all masses, while electromagnetism is a combination of electric and magnetic forces that act on charged particles at both short and long ranges. Additionally, gravity is always attractive and weak in comparison to electromagnetism, which can be attractive or repulsive and is much stronger.