The p.d `(V_(B)-V_(C)`) between two point from `C` to `B`

An infinitely long line of linear charge density lambda is shown in the figure. The potential difference V_(A)-V_(B) between the two points A and B is

The potential difference (V_(A) - V_(B)) between the point A and B in the given figure is

Point A is located 0.25 m away from a charge of -2.1 xx 10^(-9) C . Point B is located 0.50 m away from the charge. What is the electric potential difference V_(B)- V_(A) between these two points ?

The potential difference (V_A-V_B) between the point A and B as shown in the figure is

A hollow conducting sphere is placed in an electric field produced by a point charge placed at P as shown in figure. Let V_(A), V_(B), V_(C ) be the potentials at points A, B and C respectively. Then

Four resistors R_(1),R_(2),R_(3) and R_(4) are connected between two terminals A and B iin a network as shown in the diagram. A key K can connect the two points (see diagram) C and D. A constant potential difference (V_(A)-V_(B))=V is maintained between thhe points A and B Q. In on connecting the key K, no current flows through the segment CD, whatever potential difference V exists between A and B which of the following cases will satisfy this condition?

Four resistors R_(1),R_(2),R_(3) and R_(4) are connected between two terminals A and B iin a network as shown in the diagram. A key K can connect the two points (see diagram) C and D. A constant potential difference (V_(A)-V_(B))=V is maintained between thhe points A and B Q. If R_(1)=R_(4)=1Omega and R_(2)=R_(3)=2Omega , the effective resistance between the terminals A and B will change, on closing the key K, by