Part 2

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A milliammeter of range of 10mA gives full-scale deflection for a current of 100mA, when a shunt of 0.1Ω is connected in parallel to it. The coil of the milliammeter has a resistance of.
01
Dec
A milliammeter of range of 10mA gives full-scale deflection for a current of 100mA, when a shunt of 0.1Ω is connected in parallel to it. The coil of the milliammeter has a resistance of. A milliammeter of range of 10mA gives full-scale deflection for a current of 100mA when a shunt of 0.1Ω is connected [...]
Posted in: Cengage NEET by C.P Singh , Chapter 3 - Current Electricity , Part 2 ,
Tags: A milliammeter of range of 10mA gives full-scale deflection for a current of 100mA , when a shunt of 0.1Ω is connected in parallel to it. The coil of the milliammeter has a resistance of. ,
A battery is charged at a potential for 15 V for 8 h when the current following is 10A. The battery on discharge supplies a current of 5A for 15h . The mean terminal voltage during discharge is 14V. The watt-hour efficiency of the battery is
01
Dec
A battery is charged at a potential for 15 V for 8 h when the current following is 10A. The battery on discharge supplies a current of 5A for 15h . The mean terminal voltage during discharge is 14V. The watt-hour efficiency of the battery is The current i5 is December 1, 2020 Category: Cengage [...]
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Tags: The current i5 is ,
Find out the value of current through 2Ω resistance for the given circuit.
01
Dec
Find out the value of current through 2Ω resistance for the given circuit. Find out the value of current through 2Ω resistance for the given circuit. December 1, 2020 Category: Cengage NEET by C.P Singh , Chapter 3 - Current Electricity , Part 2 ,
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Tags: Find out the value of current through 2Ω resistance for the given circuit. ,
Two resistance `R_(1)` and `R_(2)` are joined as shown in figure to two batteries of emf `E_(1)` and `E_(2)`. If `E_(2)` is short circuited, what is the current through `R_(1)` ?
01
Dec
Two resistance `R_(1)` and `R_(2)` are joined as shown in figure to two batteries of emf `E_(1)` and `E_(2)`. If `E_(2)` is short circuited, what is the current through `R_(1)` ? Two resistance `R_(1)` and `R_(2)` are joined as shown in figure to two batteries of emf `E_(1)` and `E_(2)`. If `E_(2)` is short circuited [...]
Posted in: Cengage NEET by C.P Singh , Chapter 3 - Current Electricity , Part 2 ,
Tags: Two resistance `R_(1)` and `R_(2)` are joined as shown in figure to two batteries of emf `E_(1)` and `E_(2)`. If `E_(2)` is short circuited , what is the current through `R_(1)` ? ,
See the electrical circuit shown in this figure. Which of the following equations is a correct equation for it ?
01
Dec
See the electrical circuit shown in this figure. Which of the following equations is a correct equation for it ? See the electrical circuit shown in this figure. Which of the following equations is a correct equation for it ? December 1, 2020 Category: Cengage NEET by C.P Singh , Chapter 3 - Current Electricity [...]
Posted in: Cengage NEET by C.P Singh , Chapter 3 - Current Electricity , Part 2 ,
Tags: See the electrical circuit shown in this figure. Which of the following equations is a correct equation for it ? ,
In the given circuit 1. The current through the 10 omh resistor is 2 A. 2. The current through the 5 omh resistor is 2.5 A.
01
Dec
In the given circuit 1. The current through the 10 omh resistor is 2 A. 2. The current through the 5 omh resistor is 2.5 A. In the given circuit 1. The current through the 10 omh resistor is 2 A. 2. The current through the 5 omh resistor is 2.5 A. December 1, 2020 [...]
Posted in: Cengage NEET by C.P Singh , Chapter 3 - Current Electricity , Part 2 ,
Tags: In the given circuit 1. The current through the 10 omh resistor is 2 A. 2. The current through the 5 omh resistor is 2.5 A. ,
In the circuit shown in the figure, if potential at point `A` is taken to be zero, the potential at point `B` is
01
Dec
In the circuit shown in the figure, if potential at point `A` is taken to be zero, the potential at point `B` is if potential at point `A` is taken to be zero In the circuit shown in the figure: the potential at point `B` is December 1, 2020 Category: Cengage NEET by C.P Singh [...]
Posted in: Cengage NEET by C.P Singh , Chapter 3 - Current Electricity , Part 2 ,
Tags: if potential at point `A` is taken to be zero , In the circuit shown in the figure: , the potential at point `B` is ,
An accumulator battery (storage cell) B of emf ε and internal resistance r is being charged from DC supply whose terminals are T1 and T2
01
Dec
An accumulator battery (storage cell) B of emf ε and internal resistance r is being charged from DC supply whose terminals are T1 and T2 An accumulator battery (storage cell) B of emf ε and internal resistance r is being charged from DC supply whose terminals are T1 and T2 December 1, 2020 Category: Cengage [...]
Posted in: Cengage NEET by C.P Singh , Chapter 3 - Current Electricity , Part 2 ,
Tags: An accumulator battery (storage cell) B of emf ε and internal resistance r is being charged from DC supply whose terminals are T1 and T2 ,
Two cells of unequal emfs, E1 ​and E2, the internal resistance r1 and r2 are joined as shown. VA ​and VB are the potentials at A and B respectively
01
Dec
Two cells of unequal emfs, E1 ​and E2, the internal resistance r1 and r2 are joined as shown. VA ​and VB are the potentials at A and B respectively E1 ​and E2 the internal resistance r1 and r2 are joined as shown. VA ​and VB are the potentials at A and B respectively Two cells [...]
Posted in: Cengage NEET by C.P Singh , Chapter 3 - Current Electricity , Part 2 ,
Tags: E1 ​and E2 , the internal resistance r1 and r2 are joined as shown. VA ​and VB are the potentials at A and B respectively , Two cells of unequal emfs ,
When some potential difference is maintained between A and B, current I enters the network at A and leaves at B
01
Dec
When some potential difference is maintained between A and B, current I enters the network at A and leaves at B current I enters the network at A and leaves at B When some potential difference is maintained between A and B December 1, 2020 Category: Cengage NEET by C.P Singh , Chapter 3 - [...]
Posted in: Cengage NEET by C.P Singh , Chapter 3 - Current Electricity , Part 2 ,
Tags: current I enters the network at A and leaves at B , When some potential difference is maintained between A and B ,