No
When you wind a current carrying wire into a coil, it causes the concentration of the magnetic field line to intensify. Depending on which pole of the magnet is in the up position, the wire will move towards or bend away from it.
Yes.Yes.Yes.Yes.
No.It doesn't.
A suspended magnet comes to rest when the magnetic forces acting on it are balanced by other forces, such as gravitational and frictional forces. When the magnet is freely suspended, it will rotate until its magnetic field aligns with the Earth's magnetic field, reaching a position of equilibrium. Additionally, any oscillations or movements will gradually diminish due to air resistance and internal friction, leading the magnet to settle in its most stable orientation.
A magnet rests at its north-south position due to Earth's magnetic field. The north pole of a magnet is attracted to Earth's magnetic south pole, causing it to align in a north-south direction.
No, there will be no induced electric current if the magnet remains at rest relative to the conductor. Movement or a change in magnetic field is required to induce an electric current in a nearby conductor through electromagnetic induction.
If the magnet and coil are not moving relative to each other, there will be no induced current in the coil. The movement of the magnetic field relative to the coil is required to induce an electromotive force and generate current through electromagnetic induction.
When you wind a current carrying wire into a coil, it causes the concentration of the magnetic field line to intensify. Depending on which pole of the magnet is in the up position, the wire will move towards or bend away from it.
When the magnet is free to rotate and its poles are in a horizontal plane, it comes to rest with its poles pointing roughly north and south.
When a magnet is freely suspended it will come to rest aligned with the north and south magnetic poles of the Earth. The north seeking point of the magnet is called the south pole and the south seeking point of the magnet is called the north pole. If the two magnetic poles are placed near each other a force will exist between them, this force will be either of attraction or repulsion. Like poles repel, unlike poles attract. A moving magnetic field will induce a current in a wire. Conversely, a moving wire in a magnetic field will have a current induced in it. Also, a wire carrying current will create a magnetic field. Electricity and magnetism are so closely related to each other that it is actually called electromagnetism.
Newton's law of inertia: An object at rest remains at rest unless an unbalanced force acts upon it.
it will rest in the north - south direction
A freely suspended magnet would align itself along the north-south direction due to Earth's magnetic field. This alignment happens because the north pole of the magnet points towards the Earth's magnetic north pole.
Yes.Yes.Yes.Yes.
The rest of the lights in the system will remain illuminated. Except in that branch of the circuit. The parallel branch(s) get more current if the voltage potential remains the same.
when A magnet, example compass needle is at rest, it points to the north pole of the earth. A magnet also attract certain metals when brought closer to them.
That's my son on Sunday morning. We call him "Ben".