When an electron and a proton enter in a magnetic field which one path is more curved?

When an electron and a proton enter in a magnetic field which one path is more curved?

We know that protons have larger mass than an electron. Therefore, the radius of the path of the proton will be more, making it less curved.

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

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.

Which has longer wavelength an electron or a proton?

Answer: The de Broglie wavelength of a particle is inversely proportional to its momentum p = m v; since a proton is about 1800 times more massive than an electron, its momentum at the same speed is 1800 times that of an electron, and therefore its wavelength 1800 times smaller. The electron has the longer wavelength.

When electron and proton enter a magnetic field?

An electron and a proton enter a magnetic field perpendicularly, both have same kinetic energy.

When electron and proton are both placed in 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.

When an electron and a proton are both placed in an electric field then?

When an electron and a proton are both placed in an electric field, both the electron and proton will have the same electrical charging magnitude viz. 4.8 ^10^ -10 charging. The only distinction is that the charge on the proton is taken as positive and that the charges on the electron are taken as negative.

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

When an electron enter perpendicular to the magnetic field then what is its trajectory?

When a charged particle enters a magnetic field perpendicularly, it moves on a circular path. The required centripetal force is provided by magnetic force.

Which particle experiences more force when it enters a magnetic field?

An electron and a proton enter a magnetic field with equal velocities. The particle that experiences more force is >> An electron and a proton en… An electron and a proton enter a magnetic field with equal velocities. The particle that experiences more force is it cannot be predicted.

What happens when an electron and a proton enter a magnetic field?

Assertion : An electron and proton enters a magnetic field with equal velocities, then, the force experienced by the proton will be more than electron. Reason : The mass of proton is 1837 times more than electron.

Do electrons and protons have the same force of attraction?

If these are the same for both the electron and proton, then the same force will be applied. However, acceleration is proportional to force over mass, and since the proton is about 8,000 heavier than the electron, it’s radius of cu… Assuming they are traveling perpendicular to the field, and through the same strength field, the electron.

What is the acceleration due to the force of a proton?

The acceleration due to this force is, a = q. E → m. Thus we can clearly see that the acceleration on the electron will be greater than the proton since the mass of proton is approximately 3 orders of magnitude greater than the electron.