Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions)

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In the circuit shown in the figure, L is ideal inductor and E is ideal cell. Switch S is closed at t = 0.
10
Sep
In the circuit shown in the figure, L is ideal inductor and E is ideal cell. Switch S is closed at t = 0. In the circuit shown in the figure: L is ideal inductor and E is ideal cell. Switch S is closed at t = 0. September 10, 2020 Category: Uncategorised (JEE Advanced [...]
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Tags: In the circuit shown in the figure: , L is ideal inductor and E is ideal cell. Switch S is closed at t = 0. ,
The frequency of oscillation of current in the indicator is
10
Sep
The frequency of oscillation of current in the indicator is The frequency of oscillation of current in the indicator is September 10, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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Tags: The frequency of oscillation of current in the indicator is ,
A 1.00μF capacitor is charged by a 40.0 V power supply. The fully charged charged capacitor is then discharged through a 10.0 mH inductor. Find the maximum current in the resultaing oscillations.
10
Sep
A 1.00μF capacitor is charged by a 40.0 V power supply. The fully charged charged capacitor is then discharged through a 10.0 mH inductor. Find the maximum current in the resultaing oscillations. A 1.00μF capacitor is charged by a 40.0 V power supply. The fully charged charged capacitor is then discharged through a 10.0 mH [...]
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Tags: A 1.00μF capacitor is charged by a 40.0 V power supply. The fully charged charged capacitor is then discharged through a 10.0 mH inductor. Find the maximum current in the resultaing oscillations. ,
In the circuit of fig. the battery emf is e the resistance is R and the capacitance is C. the switch S Is closed for a long time interval, and zero potential difference is measured across the capacitor.
10
Sep
In the circuit of fig. the battery emf is e the resistance is R and the capacitance is C. the switch S Is closed for a long time interval, and zero potential difference is measured across the capacitor. and zero potential difference is measured across the capacitor. In the circuit of fig. the battery emf [...]
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Tags: and zero potential difference is measured across the capacitor. , In the circuit of fig. the battery emf is e the resistance is R and the capacitance is C. the switch S Is closed for a long time interval ,
a fat coil of wire has an inductance of 40 mH and a resistance of 5 ohm. it is connected to a 22 -V battery at the instant i = 0. Consider the moment when the current is 3 A.
10
Sep
a fat coil of wire has an inductance of 40 mH and a resistance of 5 ohm. it is connected to a 22 -V battery at the instant i = 0. Consider the moment when the current is 3 A. a fat coil of wire has an inductance of 40 mH and a resistance of [...]
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Tags: a fat coil of wire has an inductance of 40 mH and a resistance of 5 ohm. it is connected to a 22 -V battery at the instant i = 0. Consider the moment when the current is 3 A. ,
Discuss the similarities between the energy stored in the electric field of a charged capacitor and the energy stored in the magnetic field of a current carrying coil.
10
Sep
Discuss the similarities between the energy stored in the electric field of a charged capacitor and the energy stored in the magnetic field of a current carrying coil. Discuss the similarities between the energy stored in the electric field of a charged capacitor and the energy stored in the magnetic field of a current carrying [...]
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Tags: Discuss the similarities between the energy stored in the electric field of a charged capacitor and the energy stored in the magnetic field of a current carrying coil. ,
In the circuit shown, switch S is closed at time t = 0. The charge which passes through the battery in one time constant is
10
Sep
In the circuit shown, switch S is closed at time t = 0. The charge which passes through the battery in one time constant is In the circuit shown switch S is closed at time t = 0. The charge which passes through the battery in one time constant is September 10, 2020 Category: Uncategorised [...]
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Tags: In the circuit shown , switch S is closed at time t = 0. The charge which passes through the battery in one time constant is ,
After the switch is closed in the LC circuit shown in the figure, the charge on the capacitor is some times zero, but at such instants the current in the circuit is not zero. How is the behavior possible?
10
Sep
After the switch is closed in the LC circuit shown in the figure, the charge on the capacitor is some times zero, but at such instants the current in the circuit is not zero. How is the behavior possible? After the switch is closed in the LC circuit shown in the figure but at such [...]
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Tags: After the switch is closed in the LC circuit shown in the figure , but at such instants the current in the circuit is not zero. How is the behavior possible? , the charge on the capacitor is some times zero ,
Consider the circuit shown in the fig. the current through the battery a long time after the switch is closed is
10
Sep
Consider the circuit shown in the fig. the current through the battery a long time after the switch is closed is Consider the circuit shown in the fig. the current through the battery a long time after the switch is closed is September 10, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP [...]
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Tags: Consider the circuit shown in the fig. the current through the battery a long time after the switch is closed is ,
In the given circuit, let i1 be the current drawn from battery at time t =0 and i2 be steady current at t = infinity, then the ratio i1/i2 is
10
Sep
In the given circuit, let i1 be the current drawn from battery at time t =0 and i2 be steady current at t = infinity, then the ratio i1/i2 is In the given circuit let i1 be the current drawn from battery at time t =0 and i2 be steady current at t = infinity [...]
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Tags: In the given circuit , let i1 be the current drawn from battery at time t =0 and i2 be steady current at t = infinity , then the ratio i1/i2 is ,