In the network shown, R(1) and R(2) are ...

In the network shown,` R_(1)` and `R_(2)` are unknown resistances, uniform rod AB is of length `1.0 m` and resistance `1.0kOmega` and `A_(1)` and `A_(2)` are ideal ammeters. The adjacent graph shows relation between current in the ammeter `A_(1)` and distance x of the jockey D from the end A. Based on the above information, mark CORRECT statements.

Resistance `R_(1)` is closet to `0.2 kOmega`

Ratio of resistance `R_(1)` to `R_(2)` is equal to `1:4`.

Emf `V_(0)` of the battery is closet to `3.6 V`

None of the above is correct.

Text Solution

Verified by Experts

Similar Questions

Explore conceptually related problems

What are the readint of the ammeters A_(1) and A_(2) shown in figure. Neglect the resistance of the maters.

In the situation shown , the readings of ideal ammeters A_(1) and A_(2) are in the ratio.

For the circuit shown in fig, the ammeter A_(2) reads 1.6A and ammeter (A_3) reads 0.4A. Then

If the reading of ammeter A_(1) in figure is 2.4 A, what will the ammeter A_(2) and A_(3) read? Neglect the resistances of the ammeter.

An ammeter A, a voltmeter V and a resistance R are connected as shown in the figure. If the voltmeter reading is 1.6V and the ammeter reading is 0.4 A, then R is

A 9 V battery with internal resistance of 0.5 Omega is connected across an infinite network as shown in the figure. All ammeters A_(1), A_(2), A_(3) and voltmeter V are ideal.

A pulley-block arrangement is shown in the adjacent figure, if acceleration of m_(1), m_(2) and m_(3) are a_(1) ,a_(2) and a_(3) respectively, then relation between a_(1),a_(2) and a_(3) is ( All string and pulleys are ideal . )

In the circuit shown, keys K_1 and K_2 both are closed the ammeter reads I_0 . But when K_1 is open and K_2 is closed, the ammeter reads I_0//2 . Assuming that ammeter resistance is much less than R_2 , the values of r and R_1 is Omega are

Text Solution

Similar Questions

Recommended Questions