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An inductor of inducance 5.0 H, having a...

An inductor of inducance 5.0 H, having a negligible resistance, is connected in series with a `100 Omega` resistor and a battery of emf 2.0 V. Find the potential difference across the resistor 20 ms after the circuit is switched on.

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Here ` L= 5.0H, `
` R = 100 Omega , emf = 2.0V `
` t = 20ms = 20 xx (10^-3)s `
` = 2 xx (10^-2) s `
` i_0 = 2/100 `
` tau = L/R = 5/100`
Now ` i= i_0 (1-e^(-t/tau)) `
` I = 2/100 ( 1- e^(( -2 xx (10^-2) xx 100)/5) `
` I = 2/100 (1- e^(-2/5)) `
` = 2/100 (-0.670) `
` = 0.00659 = 0.0066 `
` V = iR = 0.0066 xx 100`
` = 0.66 V `.
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HC VERMA-ELECTROMAGNETIC INDUCTION-EXERCISE
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  2. A coil of resistance 40 Omega is connected across a 4.0 V battery. 0...

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  3. An inductor of inducance 5.0 H, having a negligible resistance, is con...

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  4. The time constant of an LR circuit is 40 ms. The circuit is connected...

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  5. An LR circuit has L = 1.0 H R =20 Omega. It is connected across an e...

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  6. What are the values of the self induced emf in the circuit of the pr...

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  7. An inductor-coil of inductance 20 mH having resistance 10 Omega is jo...

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  8. An LR circuit constains an inductor of 500 mH, a resistor of 25.O Om...

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  9. An inductor coil of resistance 10 Omega and inductance 120 mH is conn...

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  10. An inductor coil of inductance 17 mH is constructed from a copper wire...

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  11. An LR circuit having a time constant of 50 ms is connected with an ide...

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  14. The magnetic field at a point inside a 2.0 mH inductor coil becomes 0...

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  16. an inductor of inductance 2.00 H is joined in series with a resistor o...

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  17. Two coil A and B have inductances 1.0 H and 2.0 H respectively. The...

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  18. The current in a discharging LR circuit without the battery drops from...

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  19. A constant current exists in an inductor coil connected to a battery. ...

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