Team Quanta gladly presents all possible short questions of Electricity & Magnetism – II’s Chapter#01: Induction.
Q.1 Why does not the LC circuit simple stops oscillating when capacitor has been completely discharged.
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Q.2 In an oscillating LC circuit assumed resistanceless, what determines the frequency and the amplitude of the oscillations.
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Q.3 Explain how there can be a current in the inductor even though there is no charge on the capacitor.
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Q.4 Explain Lenz’s law is according to law of conservation of energy.
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Q.5 Is an emf induced in a long solenoid by a bar magnet that moves inside it along the solenoid axis?
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Q.6 Show that L/R has the dimension of time ![]()
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Q.7 How energy is conserved according to Lenz law.
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Q.8 Differentiate between damped and forced oscillations.
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Q.9 Define magnetization.
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Q.10 Why does not the LC circuit simple stops oscillating when capacitor has been completely discharged.
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Q.11 Why does a magnet attracts an un-magnetized iron object such as nail.
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Q.12 Show that, classically, a spinning positive charge will have a spin magnetic moment that points in same direction as its spin angular momentum.
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Q.13 In an oscillating LC circuit assumed resistanceless, what will be the frequency and the amplitude of oscillations.
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Q.14 Differentiate between Bohr’s magneton and nuclear magneton.
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Q.15 Can a magnitude of magnetic field B be a constant or variable to follow magnetic field line. Give an example in each case.
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