Square of the resultant of two forces of equal magnitude is equal to three times the product of their magnitude. The angle between them is

Two forces, each of magnitude F have a resultant of the same magnitude F. The angle between the two forces is

The resultant of two forces,one double the other in magnitude,is perpendicular to the smaller of the two forces.The angle between the two forces is

Find an A.P whose sum of n terms is equal to three times the square of n.

The greatest & the least magnitude of the resultant of two forces of constant magnitudes are P & Q respectively. If the forces act at an angle 2 alpha , then prove that the magnitude of their resultant is given by sqrt(P^(2) cos^(2) alpha+Q^(2) sin^(2) alpha) .

If the resultant of two forces is equal in magnitude to one of the components and perpendicular to it direction, find the other components using the vector method.

The resultant of the vectors A and B is perpendicular to the vector A and its magnitude is equal to half the magnitude of vector B. The angle between vecA" and "vecB is :-

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

Two force F_(1)" and "F_(2) are acting on a body. One force is double that of the other force and the resultant is equal to the greater force. Then the angle between the two forces is :-

Given that vecA+vecB+vecC=0 , out of three vectors two are equal in magnitude and the magnitude of third vector is sqrt2 times that of either of two having equal magnitude. Then angle between vectors are given by

The magnitude of the induced emf is equal to the time rate of change of ……