The ratio of the electrostatic force to the gravitational force between two electrons is approximately 2.4 x 1042.
The ratio of gravitational force to electrostatic force between two electrons is approximately (3.6 \times 10^{-42}). This is because the gravitational force between two electrons is much weaker than the electrostatic force due to their small masses compared to their charges.
The electrostatic force can be compared to the force of gravity in terms of being a fundamental force affecting the interaction between objects. However, while gravity is responsible for the attraction between all objects with mass, the electrostatic force acts on charged particles like electrons and protons.
Electrostatic force IS stronger than gravitational force because the electrostatic force between a charged straw (which has been rubbed with a cloth) can defy gravity and stick to the ceiling.
The answer is gas.
Coulomb's force is the electrostatic force between charged particles, while gravitational force is the force of attraction between masses due to gravity. Coulomb's force depends on the amount of charge and distance between charges, while gravitational force depends on the masses and distance between objects. Coulomb's force is much stronger than gravitational force for everyday objects.
The ratio of gravitational force to electrostatic force between two electrons is approximately (3.6 \times 10^{-42}). This is because the gravitational force between two electrons is much weaker than the electrostatic force due to their small masses compared to their charges.
The electrostatic force of attraction between electrons and nucleus was likened to the gravitational force of attraction between the revolving planets and the Sun.
The electrostatic force can be compared to the force of gravity in terms of being a fundamental force affecting the interaction between objects. However, while gravity is responsible for the attraction between all objects with mass, the electrostatic force acts on charged particles like electrons and protons.
Electrostatic force IS stronger than gravitational force because the electrostatic force between a charged straw (which has been rubbed with a cloth) can defy gravity and stick to the ceiling.
electrostatic force between the nucleus and the electrons.
The answer is gas.
electrostatic force
Coulomb's force is the electrostatic force between charged particles, while gravitational force is the force of attraction between masses due to gravity. Coulomb's force depends on the amount of charge and distance between charges, while gravitational force depends on the masses and distance between objects. Coulomb's force is much stronger than gravitational force for everyday objects.
The gravitational force is not an example of an electrostatic force that exists within the atom. The electrostatic forces within an atom include the forces between protons and electrons, and the forces holding the nucleus together.
electrostatic force
Similarities: inverse square law for strength of force both r central forces both are conservative forces both follow principle of superposition Differences gravity attracts electric force electric force can change direction electrostatic force depends on interviening medium
gravitational force electrostatic force weak nuclear force strong nuclear force