In the circuit shown

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In the circuit shown , each reistance is 2 ohm . The potential V1 is as indicated in the circuit . what is the magnitude of V1 in volt ?
12
Nov
In the circuit shown , each reistance is 2 ohm . The potential V1 is as indicated in the circuit . what is the magnitude of V1 in volt ? each reistance is 2 ohm . The potential V1 is as indicated in the circuit . what is the magnitude of V1 in volt ? [...]
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Tags: each reistance is 2 ohm . The potential V1 is as indicated in the circuit . what is the magnitude of V1 in volt ? , In the circuit shown ,
In the circuit shown, the resistance are given in ohms and the battery is assumed ideal with emf equal to 3 V.
12
Nov
In the circuit shown, the resistance are given in ohms and the battery is assumed ideal with emf equal to 3 V. In the circuit shown the resistance are given in ohms and the battery is assumed ideal with emf equal to 3 V. November 12, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma [...]
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Tags: In the circuit shown , the resistance are given in ohms and the battery is assumed ideal with emf equal to 3 V. ,
In the circuit shown , switch S is closed at t = 0 . Let i1 and i2 be the currents at any finite time t , then the ratio i1 /i2 .
11
Nov
In the circuit shown , switch S is closed at t = 0 . Let i1 and i2 be the currents at any finite time t , then the ratio i1 /i2 . In the circuit shown switch S is closed at t = 0 . Let i1 and i2 be the currents at any [...]
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Tags: In the circuit shown , switch S is closed at t = 0 . Let i1 and i2 be the currents at any finite time t , then the ratio i1 /i2 . ,
In the circuit shown, the cell is ideal , with emf=15V. Ecah resistance is of 3Ω. the potential difference across the capacitor is
11
Nov
In the circuit shown, the cell is ideal , with emf=15V. Ecah resistance is of 3Ω. the potential difference across the capacitor is In the circuit shown the cell is ideal with emf=15V. Ecah resistance is of 3Ω. the potential difference across the capacitor is November 11, 2020 Category: Uncategorised (JEE Advanced Physics by BM [...]
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Tags: In the circuit shown , the cell is ideal , with emf=15V. Ecah resistance is of 3Ω. the potential difference across the capacitor is ,
In the circuit shown , current through 25 V cell is (a) 7.2 A (b) 10 A (c) 12 A (d) 14.2 A
11
Nov
In the circuit shown , current through 25 V cell is (a) 7.2 A (b) 10 A (c) 12 A (d) 14.2 A current through 25 V cell is (a) 7.2 A (b) 10 A (c) 12 A (d) 14.2 A In the circuit shown November 11, 2020 Category: Uncategorised (JEE Advanced Physics by BM [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: current through 25 V cell is (a) 7.2 A (b) 10 A (c) 12 A (d) 14.2 A , In the circuit shown ,
In the circuit shown, all capacitors are identical. Initially, the switch is open and the capacitor marked C1 is the only one charged to a value Q0. After the switch is closed and the equilibrium is reestablished, the charge on the capacitor marked C1 is Q. Find the ratio initial change to final charge in capacitor C1.
10
Nov
In the circuit shown, all capacitors are identical. Initially, the switch is open and the capacitor marked C1 is the only one charged to a value Q0. After the switch is closed and the equilibrium is reestablished, the charge on the capacitor marked C1 is Q. Find the ratio initial change to final charge in [...]
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Tags: all capacitors are identical. Initially , In the circuit shown , the charge on the capacitor marked C1 is Q. Find the ratio initial change to final charge in capacitor C1. , the switch is open and the capacitor marked C1 is the only one charged to a value Q0. After the switch is closed and the equilibrium is reestablished ,
In the circuit shown, the effective capacitance between points X and Y is
08
Nov
In the circuit shown, the effective capacitance between points X and Y is In the circuit shown the effective capacitance between points X and Y is November 8, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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Tags: In the circuit shown , the effective capacitance between points X and Y is ,
In the circuit shown, L = 1 μH,C = 1 μF and R = 1 k Ω. They are connected in series with an source V = V0 sin ω t as shown. Which of the following options is/are correct ?
28
Oct
In the circuit shown, L = 1 μH,C = 1 μF and R = 1 k Ω. They are connected in series with an source V = V0 sin ω t as shown. Which of the following options is/are correct ? C = 1 μF and R = 1 k Ω. They are connected in [...]
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Tags: C = 1 μF and R = 1 k Ω. They are connected in series with an source V = V0 sin ω t as shown. Which of the following options is/are correct ? , In the circuit shown , L = 1 μH ,
In the circuit shown, R is a pure resistor, L is an inductor of negligible resistance (as compared to R) and S is a 100 V, 50 Hz AC source of negligible resistance. With eigther key k1 alone or k2 alone closed, the current is I0. if the source is changed to 100 V,100 Hz, the current with k1 alone closed and with k2 alone closed will be respectively
27
Oct
In the circuit shown, R is a pure resistor, L is an inductor of negligible resistance (as compared to R) and S is a 100 V, 50 Hz AC source of negligible resistance. With eigther key k1 alone or k2 alone closed, the current is I0. if the source is changed to 100 V,100 Hz, [...]
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Tags: 100 Hz , 50 Hz AC source of negligible resistance. With eigther key k1 alone or k2 alone closed , In the circuit shown , L is an inductor of negligible resistance (as compared to R) and S is a 100 V , R is a pure resistor , the current is I0. if the source is changed to 100 V , the current with k1 alone closed and with k2 alone closed will be respectively ,
In the circuit shown, the switch S is shifted to position 2 from position 1 at t=0, having been in position 1 for a long time. THe currenmt in the circuit just after shifting of switch will be ( battery and both the inductors are ideal )
22
Oct
In the circuit shown, the switch S is shifted to position 2 from position 1 at t=0, having been in position 1 for a long time. THe currenmt in the circuit just after shifting of switch will be ( battery and both the inductors are ideal ) having been in position 1 for a long [...]
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Tags: having been in position 1 for a long time. THe currenmt in the circuit just after shifting of switch will be ( battery and both the inductors are ideal ) , In the circuit shown , the switch S is shifted to position 2 from position 1 at t=0 ,