What is the ratio between electrostatic force and gravitational force between electron and proton?
1)Compute the ratio of gravitational force and electrostatic force between an electron (mass- 9.1 × 10^-19 kg )and a proton (mass- . 1.7×10^-27 kg). GIVEN: e=1.6 ×10^-19C. G=6.67 ×10^-11 N m^2 /kg^-2.
What is the ratio of electrostatic to gravitational force between the electrons?
Hence, the ratio of electric to gravitational force between two electrons is 4.17×1042.
What is the ratio between gravitational force and electromagnetic force?
Answer: ratio of strengths of gravitational force, electromagnetic force, nuclear force is 1:10^36:10^38 (one: 10 raised to thirty six: 10 raised to thirty eight).
What is the electrostatic force between an electron and a proton?
The electric force between two electrons is the same as the electric force between two protons when they are placed as the same distance….22.1. Introduction.
particle-particle | Fg (N) | Fc (N) |
---|---|---|
electron – proton | -1.0 x 10-47 | – 2.3 x 10-8 |
electron – neutron | -1.0 x 10-47 | 0 |
proton – proton | – 1.9 x 10-44 | 2.3 x 10-8 |
What is ratio of gravitational force?
What is the ratio of gravitational force and electrostatic force between an electron and a proton? – Quora. Gravitational force between two objects is given by F=G(m1)(m2)/(r^2). G is the universal gravitational constant with the value of 6.67*10^-11.
What is the ratio of gravitational force of attraction?
The ratio of the forces are 1:1. As gravitational force does not depends upon the medium in which the body are placed.
How electrostatic force is stronger than gravitational force?
The gravitational force is directly proportional to the mass of both objects. The electrostatic force is directly proportional to the charge of the objects.
What is the ratio of gravitational force?
According to Newton’s law of gravitation, the gravitational force between two objects is directly proportional to the product of their masses and inversely proportional to the square of the distance between their center of mass.
How many times electrostatic force is greater than gravitational force for a fixed distance?
Notes: Electrostatic forces are 1036 times stronger than the Gravitational Forces for a fixed distance.
How do the gravitational and electrical forces between a proton and neutron compare?
How do the gravitational and electrical forces between a proton and a neutron compare? The gravitational force is much larger than the electrical force for any distance between the particles. They are inversely proportional to the square of the distance.
What is the ratio of electrostatic and gravitational force acting on electrons?
The ratio of electrostatic and gravitational force acting between electron and proton separated by a distance 5 xx 10^ (-11)m, will be (charge on electron = 1.6 xx 10^ (-19)C, mass of electron = 9.1 xx 10^ (-31) kg, mass of proton = 1.6 xx 10^ (-27) kg, G = 6.7 xx 10^ (-11) N – m^ (2)//kg^ (2))
What is the difference between Proton force and electron force?
The magnitude of the electron quantum is 1836 times smaller than that of the proton so the proton force predominates in this context. Electrons have other important functions, including absorbing and re-emitting photons. But that’s another story.
What is the distance between two protons in electrostatic force?
FREE Expert Solution The electrostatic force between two protons is equated to the weight of one proton. The distance at which the electrostatic force between two protons equals to the weight of one proton is 0.12 m. At what distance is the electrostatic?
Is the electrostatic force stronger than the force of gravity?
The electrostatic force is significantly stronger than the force of gravity. The strength of the electrostatic force depends on the medium across with it acts whereas gravity has no such dependency. The electrostatic force can either be attractive or repulsive between two bodies with unlike or like charges.