just like an electron, its path curves but in the opposite direction.
The magnetic field or energy associated with the magnetic field will no longer be generated if the current is turned off.
Electric current will be induced in such a way that the flux of the magnetic field will be constant and thereby the induced current will create magnetic field in the same direction. This is what we call Lenz's law(law of conservation of energy).
The polarity of the electromagnet reverses.
Magnetic force fields will pass through any material that is Not Magnetic itself, and does not have a magnetic field in it or surrounding it (like a wire carrying a current). When a magnetic field encounters a magnetic material the field is contained by it. This is the purpose of a "KEEPER", a metal bar that is placed across the Poles of a Horseshoe magnet. It 'Keeps' the Field in the magnet so to speak. This helps maintain the magnets strength.
The magnetic field. If it's an electromagnet, the electromagnetic field.
they combine and become one magnetic field
If the current in the wire increases, the magnetic field also increases.
The magnitude of the magnetic field is decreased
In that case, the magnetic field will also be reverted.
The magnetic field collapses to zero, then builds up again for the current in the opposite direction.
You can use a magnetic field to move salt water. Magnetohydrodynamics.
The field gets stronger
The convection that causes Earth's magnetic field happens in Earth's molten outer core.
the wire would be deflected perpendicular to the magnetic field in the opposite direction.
The magnetic field or energy associated with the magnetic field will no longer be generated if the current is turned off.
Electricity is formed (electrons move )
Peter Pulsifer has written: 'Waves and instabilities in an electron-positron plasma in an ultrastrong magnetic field' -- subject(s): Electron gas, Plasma instabilities, Positronium, Magnetic properties, Electric properties