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www.GOALias.blogspot.comMoving Charges andMagnetismµ0NIB =(4.21)2πrWe shall now compare the two results: for a toroid and solenoid. Were-express Eq. (4.21) to make the comparison easier with the solenoidresult given in Eq. (4.20). Let r be the average radius of the toroid and nbe the number of turns per unit length. ThenN = 2πr n = (average) perimeter of the toroid× number of turns per unit lengthand thus,B = µ 0n I, (4.22)i.e., the result for the solenoid!In an ideal toroid the coils are circular. In reality the turns of thetoroidal coil form a helix and there is always a small magnetic field externalto the toroid.MAGNETIC CONFINEMENTWe have seen in Section 4.3 (see also the box on helical motion of charged particles earlierin this chapter) that orbits of charged particles are helical. If the magnetic field isnon-uniform, but does not change much during one circular orbit, then the radius of thehelix will decrease as it enters stronger magnetic field and the radius will increase when itenters weaker magnetic fields. We consider two solenoids at a distance from each other,enclosed in an evacuated container (see figure below where we have not shown the container).Charged particles moving in the region between the two solenoids will start with a smallradius. The radius will increase as field decreases and the radius will decrease again asfield due to the second solenoid takes over. The solenoids act as a mirror or reflector. [Seethe direction of F as the particle approaches coil 2 in the figure. It has a horizontal componentagainst the forward motion.] This makes the particles turn back when they approach thesolenoid. Such an arrangement will act like magnetic bottle or magnetic container. Theparticles will never touch the sides of the container. Such magnetic bottles are of great usein confining the high energy plasma in fusion experiments. The plasma will destroy anyother form of material container because of it’s high temperature. Another useful containeris a toroid. Toroids are expected to play a key role in the tokamak, an equipment for plasmaconfinement in fusion power reactors. There is an international collaboration called theInternational Thermonuclear Experimental Reactor (ITER), being set up in France, forachieving controlled fusion, of which India is a collaborating nation. For details of ITERcollaboration and the project, you may visit http://www.iter.org.153