A unit radial vector `vecr` makes agles of `a=30^(@)` relative to the x-axis, `beta=60^(@)` relative to the y-axis, and `gamma=90^(@)` relative to the z-axis. The vector `hatr` can be written as :

A vector vec(A) and vec(B) make angles of 20^(@) and 110^(@) respectively with the X-axis. The magnitudes of these vectors are 5m and 12m respectively. Find their resultant vector.

X and Z - axis together makes Y plane.

Write down a unit vector in XY-plane, making an angle of 30^(@) with the positive direction of x-axis.

3hati and 5hatj are vector along x-axis and y-axis respectively. Find the resultant vector

Two force vectors each having magnitude 6N are oriented as 30^(@) from positive of x-axis and other at 90^(@) with the same axis. Find out their magnitude along with position from positive of x-axis :-

The modulus of the vector barn is 8. makes an angle 45^@ with X -axis. 60^@ with Y - axis an acute angle with Z - axis. The equation of the plane passing through ( sqrt(2) , - 1,1) and having normal barn is ..............

A line AB in three-dimensional space makes angles 45^(@) and 120^(@) with the positive X-axis and The positive Y-axis, respectively. If AB makes an acute angle theta with the positive Z-axis, then theta equals

A vector has both magnitude and direaction . Does it mean that anything that has magnitude and direction is necessarily a vector ? The rotation of a body can be specified by the direction of the axis of rotation , and the angle of rotation about the axis . Does that make any rotation a vector ?