Electro Magnetic Induction And Alternating Currents Question 160

Question: A sinusoidal voltage V(t) = 100 sin (500t) is applied across a pure inductance of L=0.02H. The current through the coil is:

Options:

A) $ 10,\cos ,(500,t) $

B) $ -10,\cos ,(500,t) $

C) $ 10,\sin ,(500,t) $

D) $ -10,\sin ,(500,t) $

Show Answer

Answer:

Correct Answer: B

Solution:

  • In a pure inductive circuit current always lags behind the emf by $ \frac{\pi }{2} $ .

    If $ v(t)=v_{0},\sin ,\omega t $ then $ I=I_{0},\sin ,( \omega t-\frac{\pi }{2} ) $

    Now, given v(t) = 100 sin (500 t) and

    $ I_{0}=\frac{E_{0}}{\omega L}=\frac{100}{500\times 0.02} $

    $ [\because ,L=0.02,H] $ $ I_{0}=10,\sin ,( 500t-\frac{\pi }{2} )=-10,\cos ,(500,t) $



जेईई के लिए मॉक टेस्ट

एनसीईआरटी अध्याय वीडियो समाधान

दोहरा फलक