What is the path of an electron in a uniform magnetic field?

What is the path of an electron in a uniform magnetic field?

In a magnetic field the force is always at right angles to the motion of the electron (Fleming’s left hand rule) and so the resulting path of the electron is circular (Figure 1).

What will be the nature of the path followed by a proton when it enters a magnetic field with its velocity parallel to the magnetic field?

A proton enters a magnetic field parallel to the direction of the field. Then, the path followed by it is. Helical.

Which of them will move in a circular path with higher frequency?

electron
Thus electron move in circular path with higher frequency. A proton and an electron travelling along parallel patha enters a region of uniform magnetic field, acting perpendicular to their paths.

What is the path of a charged particle in a magnetic field?

Since the magnetic force is perpendicular to the direction of travel, a charged particle follows a curved path in a magnetic field. The particle continues to follow this curved path until it forms a complete circle.

What is uniform electric field?

A uniform electric field is a field in which the value of the field strength remains the same at all points. In a uniform electric field, as the field strength does not change and the field lines tend to be parallel and equidistant to each other. The electric field will be uniform at the centre of the plates.

When an electron enters uniform magnetic field at an acute angle its path will be?

An electron enters a uniform magnetic field with a path perpendicular to the field lines and moves in a circular path of radius R. A positron (same mass of an electron but opposite charge) enters the same magnetic field in a path perpendicular to the field with four times the kinetic energy.

What is the path of proton that enters a uniform 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.

What happens to the protons when we put them into an external magnetic field?

A magnetic moment is a vector quantity, and the direction of the proton’s magnetic moment is defined by its spin. The torque on the proton resulting from an external magnetic field is towards aligning the proton’s spin vector in the same direction as the magnetic field vector.

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.

What happens when a proton enters a magnetic field?

What will be the path of electron in the magnetic field if it enters it with a velocity of v making an angle 90 degrees with magnetic field?

elliptical path
The charged particle enters perpendicular to the field, then it will pass out making a spherical part to the other end. If the particle makes any angle other than 90 degree, it will follow rather elliptical path while suffering the deflection in the magnetic field.

What is uniform magnetic field?

A uniform magnetic field is a magnetic field that has the same magnitude and direction throughout the region under consideration, thus the field lines need to be both parallel and spaced out evenly.

What happens when a proton and electron travel in parallel paths?

A proton and an electron travelling along parallel paths enter a region of uniform magnetic field, acting perpendicular to their paths. Which of them will move in a circular path with higher frequency?

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

Originally Answered: A proton and an electron travelling along parallel paths enter a region of uniform magnetic field acting perpendicular to their path, which of them will move in a circular path with higher frequency? Left hand rule will describe their circular paths within the magnetic field.

Which particles will move in a circular path perpendicular to their paths?

A proton and an electron travelling along parallel paths enter a region of uniform magnetic field, perpendicular to their paths. Which of them will move in a circular path with higher frequency? When a charge particle enters a region of uniform magnetic field, perpendicular to their paths, they move in a circular path.

Why do electrons have a higher frequency than protons?

When a charge particle enters a region of uniform magnetic field, perpendicular to their paths, they move in a circular path. Since mass of electron is smaller than that of proton, hence it will have higher frequency. Was this answer helpful?