In a closed circuit, the vector sum of total e.m.f.s is equal to the sum of the

Prove that the sum of the squares of the diagonals of a parallelogram is equal to the sum of the squares of its sides.

If the sum of first p terms of an A.P is equal to the sum of the first q terms, then show that the sum of its first (p+q) terms is zero. (p ne q) .

State True/False: The magnitude of the sum of 2 vectors is may be equal to the sum of magnitude of 2 vector.

State True/False: The magnitude of the sum of 2 vectors is always equal to the sum of magnitude of 2 vector.

State True/False: The magnitude of the sum of 2 vectors is never equal to the sum of magnitude of 2 vector.

If the sum of first p terms of an A.P is equal to the sum of first q terms, then show that the sum of its first (p+q) terms is zero . (p ne q) .

In which of the following quadrilateral, sum of squares of all sides is equal to the sum of squares of diagonals? a) Parallelogram b) Rhombus c) Square d) All of above

An alternating e.m.f. is applied to a series L - C - R circuit. It the frequency of the applied e.m.f. is more than the resonant frequency of the circuit then the circuit will act as

If the magnitude of sum of two vectors is equal to the magnitude of difference of the two vectors, the angle between these vectors is

If the sum of p terms of an A.P is equal to the sum of q terms, then show that the sum of its p+q terms is zero.