Which has more force electron or 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

Which particle has maximum radius of curvature?

The proton will have a greater radius of curvature, because it has a much greater mass and therefore more momentum.

Would electrons that have the same velocity as the protons be deflected by these fields if so in what direction would they be deflected?

If the particles have the same speed Protons are deflected on a curved path toward the negative plate. Electrons are deflected on a curved path toward the positive plate.

When an electron and proton are placed in an electric field?

According to our question, when an electron and a proton are placed in an electric field, due to their opposite polarity they attract each other with an electrical force that is equal in magnitude. But the direction of the force will be opposite due to their opposite charge.

Will an electron and a proton kept in the same electric field experience same force and have same acceleration?

The answer is Yes. This is because electrons and protons have the same charge , i.e. 1.602 * 10⁻¹⁹ C. However, electrons have negative charge whereas proton has positive charge. So they would both experience the same force and acceleration but in opposite directions.

When electron and proton are both placed in electric field?

What happens to a proton in a magnetic field?

Protons in giant accelerators are kept in a circular path by magnetic force. Magnetic force is always perpendicular to velocity, so that it does no work on the charged particle. The particle’s kinetic energy and speed thus remain constant. The direction of motion is affected, but not the speed.

What happens when a proton enters an electric field?

The concept of an electric field is used to explain why charged particles exert forces on each other. When an electron moves into the electric field of a proton it is pulled to the proton. Note that for positive charge the field lines point outward and for negative field they point inward.

How are electrons deflected by a magnetic field?

That rule describes how a charged particle (our electron) moving in a magnetic field will be deflected by that field at a right angle to both the field and to the direction of the particle. The electrons in the cathode rays would deflect toward the positively charged plates, and away from the negatively charged plates.

Why does a proton have a smaller radius of curvature than an electron?

A magnetic field is formed by electrons and a proton is positively charged while the electrons of the EMF are negatively charged. Because of this Lorentz Force alone doesn’t determine the curvature of the proton alone. Due to charge attraction the proton will experience greater drag and thus have a smaller radius of curvature.

Where are electrons and protons projected with the same velocity?

An electron and a proton are projected with same velocity in a region having uniform magnetic field perpendicular to their velocities.then which of the following is correct. > An electron and a proton ar…

Do proton and electron experience the same force in a magnetic field?

Both of them will be experiencing the same amount of force as force depends on the intensity of magnetic field, the charge on the particle and the velocity of particle all of which are equal for both How does proton and electron travel in a magnetic field? In curved paths.

Why do electrons and protons move on different radii circles?

Since both – the electron and the proton entered the same region of uniform magnetic field with same velocity and they contain charges of equal magnitudes as well, so it is only their unequal masses that will cause them to move on different radii circles. One having the greater mass would move on a greater circle.