The potential gradient long the length of a unifrom wire is `10 "volt"//meter`. `B` and `C` are the two points at `30 cm` and `60 cm` point on a meter scale fitted along the wire. The potential diffenence between `B` and `C` will be

The potential gradient along the length of a uniform wire is 10 volt / metre. B and C are the two points at 30 cm and 70 cm point on a metre scale fitted along the wire. What is the potential difference between B and C ?

The potential gradient along the length of a uniform wire is 12 volt per mtre. B and C are two points at 28 cm and 52 cm on a metre scale along the wire. The potential difference between B and C will be

The potential gradient along the length of a uniform wire is 5 V/m. There are two points on the same wire at a distance of 20 cm and 40 cm from initial end of the wire. The potential difference between these points is

The potential gradient along the length of uniform wire is 10" Vm"^(-1) . The length of the wire is 1 m. What is the potential difference across two points on the wire separated by 25 cm?

The potential gradient along the length of uniform wire is 10" Vm"^(-1) . The length of the wire is 1 m. What is the potential difference across two points on the wire separated by 25 cm?

A, B and C are three points in a unifrom electric field. The electric potential is

A, B and C are three points in a unifrom electric field. The electric potential is

In the circuit shown in fig. the potential difference between the points C and D is balanced against 40 cm length of potentiometer wire of total length 100 cm. In order to balance the potential difference between the points D and E The jockey to be pressed on potentiometer wire at a distance of

If the balance length corresponding to points B and C is 40 cm on the potentiometer wire, the balance length corresponding to point C and D is

If the balance length corresponding to points B and C is 40 cm on the potentiometer wire, the balance length corresponding to point C and D is