Two forces ` F_(1) " and " F_(2)` are acting on a rod abc as shown in figure.

Let us consider two forces F_(1) " and " F_(2) acting on a body of mass 2 kg as shown in the figure. F_(1)=10N , F_(2)= 2N , what will be the acceleration?

Determine the point of application of force, when forces of 20 N and 30 N are acting on rod as shown in figure.

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 :-

A slab is subjected to two forces vec F_(1) and vec F_(2) of same magnitude F as shown in the figure . Force vec F_(2) is in XY-plane while force F_(1) acts along z-axis at the point (2 vec I + 3 vec j) .The moment of these forces about point O will be :

Two forces 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

Two forces of mangitude F_(1) and F_(2) are acting on an object.The magnitude of the net force F_(n e t ) on the object will be in the range.

Initially both blocks are at rest on a horizontal surface and string is just tight. At t=0, two constant horizontal force F_(1) and F_(2) start acting on blocks as shown. f_(1) and f_(2) are frication foces acting on 10 kg and 20 kg block (co-efficient of frication between and ground are 0.5 ). Values of F_(1) and F_(2) are given column-I. Then match magnitudes of f_(1), f_(2) and direction of overset(vec)(f_(1)) with corresponding values of F_(1) and F_(2) given in column-I [g = 10 m//s^(2)] .

A block is kept at rest on a rought ground as shown. Two force F_(1) and F_(2) are acting on it. If we increased either of the two force F_(1) and F_(2) , force of friction acting on the block will increase. By increasing F_(1) , normal reaction from ground will increase.