The magnetic field would reverse.
When the current is reverted, the magnetic field will also be reverted.
The magnetic field or energy associated with the magnetic field will no longer be generated if the current is turned off.
No electromagnetic radiation, whether ionizing or not, is affected by an electric field or by a magnetic field.
The copper by itself will do nothing of the sort. It will be surrounded by magnetic field lines if a current flows through it. It is the current that produces the magnetic field lines.
The force experienced by a current carrying conductor placed in a magnetic field is strongest when that conductor is placed perpendicularly to the magnetic field.
Yes. If a current is reversed, the magnetic field is reversed as well.
The idea is that the magnetic field of the device reacts with the external magnetic field. If the current is reversed, the magnetic field would also be reversed, and the reading would be the opposite.
In that case, the magnetic field will also be reversed.
When an electric current is reversed in an electromagnet, the magnetic field also reverses.
In that case, the magnetic field caused by the current would also be reversed. As for the wire itself, it would feel a force in the opposite direction, due to the interaction of the magnetic fields.
the wire would be deflected perpendicular to the magnetic field in the opposite direction.
No. The reversal of polarity is a reversal of Earth's magnetic poles. The Corilolis effect is a direct consequence of Earth's rotation and is not affected by the magnetic field.
No
Yes. In historical times , clay pots have shown that the earth's magnetic field has reversed.
Things that are affected by a magnetic field, such as iron and steel can hover in a magnetic field.
magnetic field.
yes indeed, in that case the current will be reversed thus, the magnetic field that coils on the wire will also be reversed(ex. from clockwise to counterclockwise and vice versa) you can understand this more by representing your right hand's thumb pointing as the direction of the current with the fingers closed, then the direction where the fingers are pointing will show how the magnetic field will coil through the wire. -K14