When a proton and an electron enter in a magnetic field normally?

An proton and an electron simultaneously enter into a region in which a uniform magnetic field acts normal to the motion of both the particles.

What happens when an electron enters a magnetic field with its velocity?

As the magnetic force on any moving charged particle is perpendicular to the velocity of that particle. As the magnitude of the velocity is equal to speed. So the speed of the electron particle remains constant in a magnetic field and thus the kinetic energy of the electron remains constant.

What will happen if an electron and a proton are brought together?

The 2 particles will accelerate towards each other, pass/scatter off each other (and then repeat) and will slowly lose energy to “friction” i.e. to radiation.

What happens when a proton enters a magnetic field?

A proton enters a uniform magnetic field with a path perpendicular to the field lines and moves in a circular path of radius R. An electron enters the same magnetic field at the same speed in a path perpendicular to the field.

When an electron enter in a magnetic field perpendicular to its plane the path of electron is?

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

When a proton is brought near another proton?

If two protons are brought near one another, the potential energy of the system will increase.

What is the force on a proton entering in a magnetic field?

A proton enters a magnetic field of flux density 1.5 T velocity of 20×102ms−1 at an angle of 30∘ with the field. The force on the position is [ep=1. 6×10−19C]

What are the similarities between Proton and electron magnetic forces?

Compare their accelerations. The magnitude of the proton and electron magnetic forces are the same since they have the same amount of charge. The direction of these forces however are opposite of each other. The accelerations are opposite in direction and the electron has a larger acceleration than the proton due to its smaller mass.

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.

How do you find the force between an electron and a proton?

The more general case is F=qv X B where the X is the cross product. If the velocity and magnetic field vectors are parallel then the force is zero. The force on the electron and the proton is the same magnitude but in opposite directions because the proton is positive and the electron is negative.

Why do electrons move more along the Y-axis than protons?

Initial velocity of electron greater than proton. Therefore, electron will travel more along y-axis in given time. Acceleration of electron will be greater than proton in the electric field. Therefore electron will move a greater magnitude of distance in the direction of electric field than proton.