the balance point is found to be 0.625 m from A. What is the resistance of the shunt?
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In the following circuit, a metre bridge is shown in its balanced state. The metre bridge wire has a resistance of 1 ohm/cm. calculate the value of the unknown resistance X and the current drawn from the battery of negligible internal resistance.
03
Sep
In the following circuit, a metre bridge is shown in its balanced state. The metre bridge wire has a resistance of 1 ohm/cm. calculate the value of the unknown resistance X and the current drawn from the battery of negligible internal resistance. Cells A and B and a galvanometer G are connected to a side [...]
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Cells A and B and a galvanometer G are connected to a side wire OS by two sliding contacts C and D as shows in Fig. 6.17. The slide wire is 100cm long and has a resistance of 12Ω. With OD=75cm ,
In the following circuit ,
In the simple potentionmeter circuit ,
respectively. When X is shunted by a wire ,
the balance point is found to be 0.625 m from A. What is the resistance of the shunt? ,
the galvanometer gives no deflections when OC is 50cm. If D is moved to touch the end of wire S ,
the resistors X and Y have values of 5Ω and 2Ω ,
where the length AB of the potentiometer wire is 1 m ,
Cells A and B and a galvanometer G are connected to a side wire OS by two sliding contacts C and D as shows in Fig. 6.17. The slide wire is 100cm long and has a resistance of 12Ω. With OD=75cm, the galvanometer gives no deflections when OC is 50cm. If D is moved to touch the end of wire S, the value of OC for which the galvanometer shows no deflection is 62.5cm. The emf of cell B is 1.0V. Calculate (i) the potential difference across O and D when D is at 75cm mark from O (ii) the potential difference across OS when D touches S (iii) internal resistance of cell A (iv) the emf of cell A
03
Sep
Cells A and B and a galvanometer G are connected to a side wire OS by two sliding contacts C and D as shows in Fig. 6.17. The slide wire is 100cm long and has a resistance of 12Ω. With OD=75cm, the galvanometer gives no deflections when OC is 50cm. If D is moved to [...]
Tags:
Cells A and B and a galvanometer G are connected to a side wire OS by two sliding contacts C and D as shows in Fig. 6.17. The slide wire is 100cm long and has a resistance of 12Ω. With OD=75cm ,
In the simple potentionmeter circuit ,
respectively. When X is shunted by a wire ,
the balance point is found to be 0.625 m from A. What is the resistance of the shunt? ,
the galvanometer gives no deflections when OC is 50cm. If D is moved to touch the end of wire S ,
the resistors X and Y have values of 5Ω and 2Ω ,
where the length AB of the potentiometer wire is 1 m ,
In the simple potentionmeter circuit, where the length AB of the potentiometer wire is 1 m, the resistors X and Y have values of 5Ω and 2Ω, respectively. When X is shunted by a wire, the balance point is found to be 0.625 m from A. What is the resistance of the shunt?
03
Sep
In the simple potentionmeter circuit, where the length AB of the potentiometer wire is 1 m, the resistors X and Y have values of 5Ω and 2Ω, respectively. When X is shunted by a wire, the balance point is found to be 0.625 m from A. What is the resistance of the shunt? In the [...]