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Question:

If a bar of copper is brought near a magnet,the copper bar will be?

If a bar of copper is brought near a magnet,the copper bar will be?

Answer:

if the bar is nice then B in case you spin the bar at a extreme fee of speed it creates magnetic container so then A or C trains in japan use compounds of aluminum and copper to offer magnetic fields
It sounds like whoever installed your lower control arm needs to replace it, the CV axle for free and check your tansmission for any damage. If they deny anything, get a LAWYER and make them do it for free. Your car isn't moving and is stalling out because the broken axle may have burnt out your transmission. Tow it right back to the shop that worked on it, and have them pay for the towing.
you need to take it back to who ever repaired it ,they need to look it over ,and you sure don't need to be trying to start it and it like this ,even though starting it shouldn't hurt it,i wouldn't ,it sounds like someone may have goofed when they repaired it,have it towed to them,it needs to be repaired,good luck with it,hope this helps and don,t forget to change your air and fuel filters too
Initially, there should be no response. Only three elements, and the alloys of those metals, have innate magnetism - iron, cobalt, and nickel. There are, however, other ways a material can exhibit magnetic properties (oxygen, with paramagnetism, for example). All flowing charge through a wire, which a bar of of copper can act as, will create a magnetic filed that goes circularly around it. Using the right hand rule, you can determine whether that flow will be clockwise or counterclockwise. When your right hand's thumb points in direction of current, your right hand's fingers wrap in direction of magnetic field.
Copper is not a metal that will be attracted to a magnet. (unlike iron, cobalt, nickel). The copper will not stick to the magnet. But there is another effect that will happen as long as there is relative movement of the copper and magnet, i.e. as the copper is moving up to the magnet. If the copper moves away from the magnet, the effect reverses, and they attract each other, but only if at least one of them is moving. The magnet is surrounded by its' magnetic field and this field passes through the copper. As the copper moves nearer, there will be a change of magnetic field (change of flux) inside it, and according to Faraday's law there will be an induced e.m.f. (voltage) in the copper. This causes electric currents (eddy currents) to flow in the copper. These currents will generate a magnetic field around the copper. According to Lenz's law the field around the copper will repel the field of the magnet. The copper bar will therefore repel the magnet very slightly as the magnet moves towards it. It would only happen while the copper is moving, and would be too small to notice if you held the copper in your hand, unless it was a strong magnet. If the copper was moving quickly, and the magnet was powerful, the force could visibly slow down, or deflect, the copper. This idea is used for damping electric balances and moving coil meters.

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