`V_A - V_B = ?`
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A charge q = + 1 muC is held at 0 between two points A and B such that AO = 2m and BO = 1m Calculate the value of potential differences (V_(A) - V_(B)) . What will be the value of potential differences (V_(A) - V_(B)) if position of B is charged as shown in Fig ?

The circuit consists of resistors and ideal cells. I_(1) and I_(2) are current through branches indicated in the figure, V_(A) and V_(B) is the potential at points A and B on the circuit The value of V_(A) - V_(B) in volts is:

When an electron moves from A to B along and electric field line as shown in Fig. the electric field does 3.94xx10^(-19)J of work on it. What are the electric potential differences (V_(B) - V_(A)) , (V_(C) - V_(A)) , (V_(C) - V_(B)) ?

In the uniform electric field shown in figure, find : a. V_A-V_D b. V_A-V_C c. V_B-V_D d. V_C-V_D

Find the equivalent resistance of the network shown in the figure between the points A and B if (i) V_(A) gt V_(B) (ii) V_(A) lt V_(B)

The equation of state for real gas is given by ((p + (a)/(V^(2))(V - b) = RT . The dimension of the constant a is ………………. .

A, B, C, D, P, and Q are points in a uniform electric field. The potentials at these points are V(A) = 2 V. V(P) = V( B) = V(D) = 5 V , and V(C) = 8 V . Find the electric field at P. .