Increase the currency.
Increase the size of the coil.
Increase the tightness of the coil.
increase the current
increase the circuit
To get the magnitude of a magnetic field calculation you will have to do a few steps. First you will have to integrate around the curve starting at 0 and get the radians then you can get the total sum of P.
A: adding more loops
Only decreasing the magnitude of the current flowing through the wire can.
Magnetism is a force. Vector notation is required to indicate magnitude and direction of a force.
A Magnetic Force
The magnitude of the magnetic field is decreased
I am not sure but magnitude of magnetic field around its poles is greatest.
It is where the magnetic field have the same magnitude and direction in a specific region. Hope that helps
Increase the magnitude of the electric current.
To get the magnitude of a magnetic field calculation you will have to do a few steps. First you will have to integrate around the curve starting at 0 and get the radians then you can get the total sum of P.
When one refers to the strength of a magnetic field, they're usually referring to the scalar magnitude of the magnetic field vector, so no.
It is a way of representing the magnetic force at a point in the field. The magnitude and direction of the vector represents the strength and the direction of the magnetic force acting on a charged particle in the field.
The magnitude of the voltage induced in a conductor moving through a stationary magnetic field depends on the length and the speed of the conductor.
A: adding more loops
Electric current, magnetic field intensity, length of the conductor, angle between the electric current and magnetic field
Only decreasing the magnitude of the current flowing through the wire can.
No. More current will result in more magnetic field.