A 100 N uniforms rod of length 6I is supported by two forces `F_1` and `F_2` as shown here. What is the ratio for `F_1` to `F_2`?

A uniform rod of mass M = 2 kg and length L is suspended by two smooth hinges 1 and 2 as shown in Fig. A force F = 4 N is applied downward at a distance L//4 from hinge 2 . Due to the application of force F , hinge 2 breaks. At this instant, applied force F is also removed. The rod starts to rotate downward about hinge 1 . ( g = 10 m//s^(2) ) The reaction at hinge 1 , before hinge 2 breaks, is

A homogeneous rod of length L is acted upon by two forces F_(1) and F_(2) applied to its ends and directed opposite to each other. With what force F will the rod be stretched at the cross section at a distance l from the end where F_(1) is applied?

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

A uniform rod of length cross- sectional area A and Young's modulus Y is subjected to two forces F and 2F at its two ends, stretching the rod.The heat generated in the rod is found to be ((10a+b)F^(2)l)/(12AY) .Find a+b .{ a, b : Positive integers}

A massless uniform rod is subjected to froce F at its free end as shown in figure. The ratio of tensile stress at plane P_(1) to stress at P_(2) is

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.