A displacement vector of magnitude 10 m has its initial point (4,3) m. They y - component of this vector has magnitude of 6m . The co- ordinates of the final point of the vector may be

A displacement vector, at an angle of 30^(@) with y-axis has an x-component of 10 units. Then the magnitude of the vector is-

Two vectors of equal magnitude are acting through a point. The magnitude of resultant is equal to the magnitude of either vectoe. Find the angle between the vectors.

A displacment vector fo magnitude 4 makes an angle 30^(@) with the x-axis. Its rectangular components in x-y plane are

Two vectors of magnitude 4 and 6 are acting through a point. If the magnitude of the resultant is R

If the resultant of two vectors having magnitudes of 7 and 4 is 3, then the magnitude of the cross product of the two vectors will be:

The x - component of the resultant of several vectors (i) is equal to the sum of the x -components of the vectors (ii) may be smaller than the sum of the magnitudes of the vectors (iii) may be greater than the sum of the magnitudes of the vectors (iv) may be equal to the sum of the magnitudes of the vectors

The vector of magnitude 6 which is equally inclined to the co-ordinate axes is

There are two displacement vectors,, one of magnitude 3 metres and the other of 4 metres. How would the two vectors be added so that the magnitude of the resultant vector be (a) 7 metres (b) 1 metre and ( c ) 5 metres.

The magnitude of the x-component of vector vec(A) is 3 and the magnitude of vector vec(A) is 5. What is the magnitude of the y-component of vector vec(A) ?