The needle that was stroked by the magnet will become magnetized and attract the other needle. The unmagnetized needle will not be affected, so it will not attract the other needle.
A compass contains a magnetized needle that aligns itself with the Earth's magnetic field. The needle has two ends, one that points towards the Earth's magnetic north (north-seeking pole) and the other towards the magnetic south (south-seeking pole). This alignment allows the needle to accurately indicate the direction of north.
A compass needle is essentially a small magnet itself. When you bring a magnet near the compass, the magnetic field of the magnet causes the compass needle to align with the magnetic field lines of the magnet, which is why the needle spins towards the magnet.
You can induce a larger electric current by either increasing the strength of the magnetic field or increasing the speed at which the magnet moves through the coil of wires. Both of these factors contribute to the rate at which magnetic flux changes, resulting in a larger induced current in the coil.
In a magnet-powered flashlight, a diode acts as a one-way valve for electrical current. It allows current generated by the magnet passing through a coil to flow in only one direction, ensuring that the flashlight's LED light only illuminates when the magnet moves and generates electricity. This helps to convert the kinetic energy from the movement of the magnet into usable electrical energy for the flashlight.
because that's how it moves and to keep straight
The needle that was stroked by the magnet will become magnetized and attract the other needle. The unmagnetized needle will not be affected, so it will not attract the other needle.
No, the magnets will be attracted to each other regardless of their position relative to the table. They will move towards each other until they eventually meet due to the magnetic force between them.
The most common way is with a magnet and a coil of wire. Have either the magnet or the coil (it doesn't matter which) fixed in place and the other one attached to a membrane that will vibrate with the sound. When a magnet moves past a coil of wire, it causes an electric current in the wire.
if you have a magnet and a magnetic matereal, rub the magnet from one end of it to the other. do this several times and it will eventualy be a magnet.
The Green Moray Eel moves from one place to the other by swimming in the water with it's fins.
You can prove newtons third law using just a toy car , and two magnets. First note the two poles of each magnet. Insert one magnet in the toy car (MOST PREFFERED TO KEEP THE MAGNET NEAR THE END OF THE CAR). Now take the other magnet and if you keep the like pole of both the magnets facing each other, the car with the magnet moves.............
A magnet will pick up materials that contain iron, nickel, or cobalt, as these are magnetic materials. This includes items like iron nails, paperclips, and certain types of coins. Materials that are not attracted to magnets include plastic, glass, and wood.
No, but there are berries that can protect one of your Pokemon from super effective moves! Like if you have a dragon type, such as Salamence, and it is very weak to other dragon moves. If it is holding a Haban berry, before the other Pokemon uses a super effective dragon type move, the Haban berry will weaken the move! I don't really do this though...
Gears move by the teeth on the gears. When you rotate one gear, the other one moves because the teeth pushes each other away, but just won't get away from each other so they just keep spinning and spinning!
One pole in a magnet which is n stands for north , and the other pole on a magnet which is s , stands for south. Those are the two poles on a magnet.
7. You have 4 pieces in the front, but one of them can only move in one direction. The other 3 both have 2 moves each. 1+3x2=7