A. 2.0
B. 1.0
C. 0.5
D. zero
Electromagnetic Induction
Electromagnetic Induction
A. 6 mH
B. 14 mH
C. 24 mH
D. 48 mH
A. 4 mH
B. 5 mH
C. 6 mH
D. 12 mH
A. voltage across the inductance
B. magnetic field
C. both A. and B.
D. neither (A) nor (B)
A. Apparent power is zero
B. Relative power is.zero
C. Actual power of the circuit is zero
D. Any capacitance even if present in the circuit will not be charged
A. 64 A/s
B. 32 A/s
C. 16 A/s
D. 4 A/s
A. 32 mH
B. 38 mH
C. 40 mH
D. 48 mH
A. 3 mH
B. 12 mH
C. 24mH
D. 48mH
A. Ohm
B. Henry
C. Ampere turns
D. Webers/metre
A. Capacitance
B. Inductance
C. Resistance
D. All of the above
