In the circuit shown in Figure

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In the circuit shown in figure, reading of voltmeter is V1 when only S1 is closed, reading of voltmeter is V2 when only S2 is closed, and reading of voltmeter is V3 when both S1 and S2 are closed. Then .
15
Nov
In the circuit shown in figure, reading of voltmeter is V1 when only S1 is closed, reading of voltmeter is V2 when only S2 is closed, and reading of voltmeter is V3 when both S1 and S2 are closed. Then . and reading of voltmeter is V3 when both S1 and S2 are closed. Then [...]
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Tags: and reading of voltmeter is V3 when both S1 and S2 are closed. Then . , In the circuit shown in Figure , reading of voltmeter is V1 when only S1 is closed , reading of voltmeter is V2 when only S2 is closed ,
In the circuit shown in figure,find the steady state charge in 6 muF capacitor ( in muC).
12
Nov
In the circuit shown in figure,find the steady state charge in 6 muF capacitor ( in muC). find the steady state charge in 6 muF capacitor ( in muC). In the circuit shown in Figure November 12, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: find the steady state charge in 6 muF capacitor ( in muC). , In the circuit shown in Figure ,
In the circuit shown in figure, (1) i = 5/3 A when s1 is closed and s2 is open (2) i = 5A when s1 is open and s2 is closed (3) i = 2 A when s1 and s2 are both open (4) i = 10 A when both s1 and s2 are closed
12
Nov
In the circuit shown in figure, (1) i = 5/3 A when s1 is closed and s2 is open (2) i = 5A when s1 is open and s2 is closed (3) i = 2 A when s1 and s2 are both open (4) i = 10 A when both s1 and s2 are closed [...]
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Tags: (1) i = 5/3 A when s1 is closed and s2 is open (2) i = 5A when s1 is open and s2 is closed (3) i = 2 A when s1 and s2 are both open (4) i = 10 A when both s1 and s2 are closed , In the circuit shown in Figure ,
In the circuit shown in figure, E1 and E2 are two ideal sources of unknown emfs. Some currents are shown. Potential difference appearing across 6Ω resistance is V A −V B ​ =10 V.
12
Nov
In the circuit shown in figure, E1 and E2 are two ideal sources of unknown emfs. Some currents are shown. Potential difference appearing across 6Ω resistance is V A −V B ​ =10 V. E1 and E2 are two ideal sources of unknown emfs. Some currents are shown. Potential difference appearing across 6Ω resistance is [...]
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Tags: E1 and E2 are two ideal sources of unknown emfs. Some currents are shown. Potential difference appearing across 6Ω resistance is V A −V B ​ =10 V. , In the circuit shown in Figure ,
In the circuit shown in figure , mark the correct options. (1) potential drops across R1 is 3.2 V. (2) potential drop across R1 is 7.2 V
12
Nov
In the circuit shown in figure , mark the correct options. (1) potential drops across R1 is 3.2 V. (2) potential drop across R1 is 7.2 V In the circuit shown in Figure mark the correct options. (1) potential drops across R1 is 3.2 V. (2) potential drop across R1 is 7.2 V November 12, [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: In the circuit shown in Figure , mark the correct options. (1) potential drops across R1 is 3.2 V. (2) potential drop across R1 is 7.2 V ,
In the circuit shown in figure, some potential difference is applied between A and B . The equivalent resistance between A and B is R.
12
Nov
In the circuit shown in figure, some potential difference is applied between A and B . The equivalent resistance between A and B is R. In the circuit shown in Figure some potential difference is applied between A and B . The equivalent resistance between A and B is R. November 12, 2020 Category: Uncategorised [...]
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Tags: In the circuit shown in Figure , some potential difference is applied between A and B . The equivalent resistance between A and B is R. ,
There is an infinite wire grid with cells in the form of equilateral triangles. The resistance of each wire between neighboring joint connections is R0 The net resistance of the whole grid between the points A and B as shown in fig.
11
Nov
There is an infinite wire grid with cells in the form of equilateral triangles. The resistance of each wire between neighboring joint connections is R0 The net resistance of the whole grid between the points A and B as shown in fig. find the maximum energy stored on the capacitor . Initially In the circuit [...]
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Tags: find the maximum energy stored on the capacitor . Initially , In the circuit shown in Figure , the capacitor was uncharged . ,
In the circuit shown in figure, find the maximum energy stored on the capacitor . Initially , the capacitor was uncharged .
11
Nov
In the circuit shown in figure, find the maximum energy stored on the capacitor . Initially , the capacitor was uncharged . find the maximum energy stored on the capacitor . Initially In the circuit shown in Figure the capacitor was uncharged . November 11, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + [...]
Posted in: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
Tags: find the maximum energy stored on the capacitor . Initially , In the circuit shown in Figure , the capacitor was uncharged . ,
In the circuit shown in figure, switch S is closed at time t = 0 . (a) what is the current I0 leaving the battery at t = 0 , immediately after the switch is closed ?
11
Nov
In the circuit shown in figure, switch S is closed at time t = 0 . (a) what is the current I0 leaving the battery at t = 0 , immediately after the switch is closed ? immediately after the switch is closed ? In the circuit shown in Figure switch S is closed at [...]
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Tags: immediately after the switch is closed ? , In the circuit shown in Figure , switch S is closed at time t = 0 . (a) what is the current I0 leaving the battery at t = 0 ,
In the circuit shown in figure, R1 = 10 ohm , R2 = 20 ohm , C1 = 1,uF, and E = 6 V. calculate the charge on each capacitor in the steady state.
11
Nov
In the circuit shown in figure, R1 = 10 ohm , R2 = 20 ohm , C1 = 1,uF, and E = 6 V. calculate the charge on each capacitor in the steady state. and E = 6 V. calculate the charge on each capacitor in the steady state. C1 = 1 In the circuit [...]
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Tags: and E = 6 V. calculate the charge on each capacitor in the steady state. , C1 = 1 , In the circuit shown in Figure , R1 = 10 ohm , r2 = 20 ohm , uF ,