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.

The density of a non-uniform rod of length 1 m is given by rho(x)=a(1+bx^(2)) where, a and b are constants and 0lexle1 . The centre of mass of the rod will be at ………..

The magnitude of the gravitational field at distance r_(1) and r_(2) from the centre of a uniform sphere of radius R and mass M are F_(1) and F_(2) respectively. Then:

A galvanometer having a coil resistance of 60 Omega shows full scale defection when a current of 1.0 A passes thoguth it. It can vbe convered into an ammeter to read currents up to 5.0 A by

A cell of e.m.f. 2V and negligible internal resistance is connected to resistor R_(1) and R_(2) as shown in the figure. The resistance of the Voltmeter R_(1) and R_(2) are 80Omega,40Omega and 80Omega respectively. The reading of the voltmeter is:-

There are 21 marks (zero to 20) on the dial of a galvanometer, that is there are 20 divisions. On passing 10muA current through it, it shows a deflection of 1 division. Its resistance is 20Omega . (a) How can it be converted into an ammeter which can measure 1 A current ? (b) How can we change it into a voltmeter to measure a pd of 1 V ? Also find the effective resistance of both of the above mentioned meters.

The linear density of a non - uniform rod of length 2m is given by lamda(x)=a(1+bx^(2)) where a and b are constants and 0lt=xlt=2 . The centre of mass of the rod will be at. X=

The resistance of an ammeter of range 5A is 1.8Omega A shunt of 0.2Omega is connected in parallel to it. When its indicator shows a current of 2A then what will be effective current?

A potentiometer wire of length L and a resistance r are connected in series with a battery of e.m.f. E_(0) and a resistance r_(1) . An unknown e.m.f E is balaned at a length l of the potentiometer wire. The e.m.f E will be given by :

A galvanometer has resistance G and Current I_(g) produces full scale deflection. S_(1) is the value of the shunt which converts it into an ammeter of range 0-I and S_(2) is the value of shunt for the range 0-2I . The ratio of S_(1) and S_(2) is

The sides of a square shaped frame, Shown in the diagram are made of wires of resistances r_(1) and r_(2) The frame is places in a uniform magnetic field, which is perpendicular to the plane of figure and is increasing at a constant rate. The resistance that should be connected across the diagonal of frame, so that this wire is warmed up at greatest rate is given by R=(n r_(1)r_(2))/(r_(1)+r_(2)) . Find n.