Response to the following:
Using the results of Problem 1, develop a program to perform the analysis appearing in Example 2 for cast steel. A test routine will have to be developed to determine whether the results obtained are sufficiently close to the applied ampere-turns.
Problem 1: Note how closely the B-H curve of cast steel in Fig.(A) matches the curve for the voltage across a capacitor as it charges from zero volts to its final value.
a. Using the equation for the charging voltage as a guide, write an equation for B as a function of H [B = f(H)] for cast steel.
b. Test the resulting equation at H 900 At/m, 1800 At/m, and 2700 At/m.
c. Using the equation of part (a), derive an equation for H in terms of B [H = f(B)].
d. Test the resulting equation at B = 1 T and B = 1.4 T. e. Using the result of part (c), perform the analysis of Example 1, and compare the results for the current I. She
Example 1: For the series magnetic circuit of Fig.(A)
a. Find the value of I required to develop a magnetic flux of Φ = 4 × 10-4 Wb.
b. Determine m and mr for the material under these conditions.
Fig.(A):
Example 2: Find the magnetic flux Φ for the series magnetic circuit of Fig.(B) for the specified impressed mmf.
Fig.(B):
