![]() ![]() Plot the loop width of hysteresis loop against magnetic field. Table 1: For calculation of coercivity, saturation magnetization and retentivity for the given sample from the loop width, the tip-to-tip height and the positive intercept to negative intercept distance of hysteresis loop respectively Complete magnetic circuits with coil windings can be analyzed, because the finite element method can be expressed in terms of a vector potential. Positive Intercept to Negative Intercept Distance(V) M-H graph corresponding to the field will be plotted, whenever the slider is stopped.ģ. Tabulate the loop width, the tip-to-tip height and positive intercept to negative intercept distance for each magnetic field as shown in the table below. (2) Magnetic eld saturation, which is a unique phenomenon in non-insulation superconducting coils during overcurrent. Potential quenching risks were found to be at the innermost and outermost turn near the electrodes, as well as at the pancake-to-pancake connection part. Slowly vary the applied magnetic field using magnetic field slider. the coil during overcurrent charging are presented and discussed. Similarly for calculating G0 we set Area ratio As/Ac to 1.000 and other settings remain as calibrated, the signal ex obtained is, ex = 18 volts.Ģ.The finally obtained value of the intercept (below) is divided by this same factor, 3, to give the correct value of coercivity. Since, the area ratio for the given sample is so small the signal ex was enhanced by multiplying area ratio and demagnetization by three. ![]()
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