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I already know that a moving charge experiences a force in a constant magnetic field governed by the Lorentz force formula.

What I want to know is that whether a changing magnetic field exhibits a force on a stationary electric charge?

The same question is answered in Does a changing magnetic field impart a force on a stationary charged particle?, but all the answers use the differential forms of the equations which I don't understand.

As an example, let's say that a uniform but increasing with time magnetic field exists into the screen and I place an electron in the region. What will be the the direction of the force and it's magnitude of the variation between magnetic field and time is given.

EDIT 2:

The magnetic field exists in a cylindrical region and the electron is located at a position which is above the center of the cross sectional circle.

I already know that a moving charge experiences a force in a constant magnetic field governed by the Lorentz force formula.

What I want to know is whether a changing magnetic field exhibits a force on a stationary electric charge?

The same question is answered in Does a changing magnetic field impart a force on a stationary charged particle?, but all the answers use the differential forms of the equations which I don't understand.

As an example, let's say that a uniform but increasing with time magnetic field exists into the screen and I place an electron in the region. What will be the action of the force and the magnitude of the variation between magnetic field and time is given.

EDIT 2:

The magnetic field exists in a cylindrical region and the electron is located at a position which is above the center of the cross-sectional circle.

I already know that a moving charge experiences a force in a constant magnetic field governed by the Lorentz force formula.

What I want to know is that whether a changing magnetic field exhibits a force on a stationary electric charge?

The same question is answered in Does a changing magnetic field impart a force on a stationary charged particle?, but all the answers use the differential forms of the equations which I don't understand.

As an example, let's say that a uniform but increasing with time magnetic field exists into the screen and I place an electron in the region. What will be the the direction of the force and it's magnitude of the variation between magnetic field and time is given.

EDIT 2:-

The magnetic field exists in a cylindrical reigon and the electron is located at a position which is above the center of the cross sectional circle.

I already know that a moving charge experiences a force in a constant magnetic field governed by the Lorentz force formula.

What I want to know is that whether a changing magnetic field exhibits a force on a stationary electric charge?

The same question is answered in Does a changing magnetic field impart a force on a stationary charged particle?, but all the answers use the differential forms of the equations which I don't understand.

As an example, let's say that a uniform but increasing with time magnetic field exists into the screen and I place an electron in the region. What will be the the direction of the force and it's magnitude of the variation between magnetic field and time is given.

EDIT 2:

The magnetic field exists in a cylindrical region and the electron is located at a position which is above the center of the cross sectional circle.

I already know that a moving charge experiences a force in a constant magnetic field governed by the Lorentz force formula.

What I want to know is that whether a changing magnetic field exhibits a force on a stationary electric charge?

The same question is answered in Does a changing magnetic field impart a force on a stationary charged particle?, but all the answers use the differential forms of the equations which I don't understand.

As an example, let's say that a uniform but increasing with time magnetic field exists into the screen and I place an electron in the region. What will be the the direction of the force and it's magnitude of the variation between magnetic field and time is given.

EDIT 2:-

The magnetic field exists in a cylindrical reigon and the electron is located at a position which is above the center of the cross sectional circle.

I already know that a moving charge experiences a force in a constant magnetic field governed by the Lorentz force formula.

What I want to know is that whether a changing magnetic field exhibits a force on a stationary electric charge?

The same question is answered in Does a changing magnetic field impart a force on a stationary charged particle?, but all the answers use the differential forms of the equations which I don't understand.

As an example, let's say that a uniform but increasing with time magnetic field exists into the screen and I place an electron in the region. What will be the the direction of the force and it's magnitude of the variation between magnetic field and time is given.

EDIT 2:-

The magnetic field exists in a cylindrical reigon and the electron is located at a position which is above the center of the cross sectional circle.