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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, [...]
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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 ,
A battery of emf E and internal resistance r is connected across a resistance R. Resistance R can be adjusted to any value greater then or equla to zero. A graph is plotted between the current passing through the resistance (I) and potential (V) across it. Select the correct alternatives.
12
Nov
A battery of emf E and internal resistance r is connected across a resistance R. Resistance R can be adjusted to any value greater then or equla to zero. A graph is plotted between the current passing through the resistance (I) and potential (V) across it. Select the correct alternatives. the current through the 8 [...]
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Tags: the current through the 8 Ω resistance is 0.75 A. When the switch 2 is closed (only) , the current through the resistance marked x is 1 A. The value of x is , When the switch 1 is closed ,
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. ,
When the switch 1 is closed, the current through the 8 Ω resistance is 0.75 A. When the switch 2 is closed (only), the current through the resistance marked x is 1 A. The value of x is
12
Nov
When the switch 1 is closed, the current through the 8 Ω resistance is 0.75 A. When the switch 2 is closed (only), the current through the resistance marked x is 1 A. The value of x is the current through the 8 Ω resistance is 0.75 A. When the switch 2 is closed (only) [...]
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Tags: the current through the 8 Ω resistance is 0.75 A. When the switch 2 is closed (only) , the current through the resistance marked x is 1 A. The value of x is , When the switch 1 is closed ,
When some potential difference is maintained between A and B , current I enters the network at A and leaves at B ( see figure ).
12
Nov
When some potential difference is maintained between A and B , current I enters the network at A and leaves at B ( see figure ). current I enters the network at A and leaves at B ( see figure ). When some potential difference is maintained between A and B November 12, 2020 Category: [...]
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Tags: current I enters the network at A and leaves at B ( see figure ). , When some potential difference is maintained between A and B ,
A single battery is connected to three resistance as shown in figure. (1) The current through 7 ohm resistance is 4 A .
12
Nov
A single battery is connected to three resistance as shown in figure. (1) The current through 7 ohm resistance is 4 A . A single battery is connected to three resistance as shown in figure. (1) The current through 7 ohm resistance is 4 A . November 12, 2020 Category: Uncategorised (JEE Advanced Physics by [...]
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Tags: A single battery is connected to three resistance as shown in figure. (1) The current through 7 ohm resistance is 4 A . ,
The potential difference between points A and B in the circuit shown in figure is 16 V . Then
12
Nov
The potential difference between points A and B in the circuit shown in figure is 16 V . Then The potential difference between points A and B in the circuit shown in figure is 16 V . Then November 12, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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Tags: The potential difference between points A and B in the circuit shown in figure is 16 V . Then ,
The charge flowing in a conductor varies with time as Q = at – bt ^2. Then, the current
12
Nov
The charge flowing in a conductor varies with time as Q = at – bt ^2. Then, the current The charge flowing in a conductor varies with time as Q = at - bt ^2. Then the current November 12, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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Tags: The charge flowing in a conductor varies with time as Q = at - bt ^2. Then , the current ,
Consider a conductor of variable cross section in which current is flowing from cross section 1 to 2 . Then
12
Nov
Consider a conductor of variable cross section in which current is flowing from cross section 1 to 2 . Then Consider a conductor of variable cross section in which current is flowing from cross section 1 to 2 . Then November 12, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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Tags: Consider a conductor of variable cross section in which current is flowing from cross section 1 to 2 . Then ,
What is the equivalent capacitance between A and B in the circuit at steady state shown.
12
Nov
What is the equivalent capacitance between A and B in the circuit at steady state shown. What is the equivalent capacitance between A and B in the circuit at steady state shown. November 12, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
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Tags: What is the equivalent capacitance between A and B in the circuit at steady state shown. ,