A galvanometer of coil resistance 100Ome...

A galvanometer of coil resistance `100Omega` is connected to a shunt of resistance `10Omega` the current through the galvanometer is `i_(1)` and the total current into the combination is `i` then the ratio `i_(1)` : `i`

(A) `1:11`

(B) `10:11`

(C) `11:10`

(D) `11:1`

Similar Questions

Explore conceptually related problems

A galvanometer of resistance 20Omega is shunted by a 2Omega resistor. What part of the main current flows through the galvanometer ?

A galvanometer has resistance 36Omega if a shunt of 4Omega is added with this, then fraction of current that passes through galvanometer is:

A galvanometer has a resistance of 3663Omega . A shunt S is connected across it such that ( 1//34 ) of the total current passes through the galvanometer. Then the value of the shunt is

A galvanometer of resistance 150 ohm is shunted such that only 1/11 of the main current flows through the galvanometer. The resistance of the shunt is, (in ohm)

A moving coil galvanometer has a resistance of 990Omega. in order to send only 10% of the main currect through this galvanometer, the resistance of the required shunt is

We have a galvanometer of resistance 25 Omega . It is shunted by a 2.5 Omega wire. The part of total current that flows through the galvanometer is given as

A galvanometer coil has a resistance of 100 Omega . When a current passes through the galvanometer, 1% of the current goes through the coil and the rest through the shunt. Find the resistance of the shunt.

A moving coil galvanometer of resistance 100Omega is used as an ammeter using a resistance 0.1 Omega . The maximum diflection current in the galvanometer is 100 muA . Find the minimum current in the circuit so that the ammeter shows maximum deflection

A galvanometer has resistance 1 Omega . Maximum deflection current through it is 0.1 A

A galvanometer of coil resistance `100Omega` is connected to a shunt of resistance `10Omega` the current through the galvanometer is `i_(1)` and the total current into the combination is `i` then the ratio `i_(1)` : `i` (A) `1:11`(B) `10:11` (C) `11:10` (D) `11:1`

Similar Questions

Recommended Questions

A galvanometer of coil resistance `100Omega` is connected to a shunt of resistance `10Omega` the current through the galvanometer is `i_(1)` and the total current into the combination is `i` then the ratio `i_(1)` : `i`

(A) `1:11`

(B) `10:11`

(C) `11:10`

(D) `11:1`