[" Q.7Under the condition shown in figure.Find out the minimum "F_(2)=?],[" value of horizontal force "F_(n-)" Which can beapplied without "quad FC_(2)=?],[" causing anymotion (assume pulley & strings are "],[" light) "]

Under the condition shown in figure. Find out the minimum value of horizontal force F_(2) on pulley, which can be applied without causing any motion (assume pulley & strings are light)

In figure-2.47 the tension in the diagonal string is 60 N. Find the magnitudes of the horizontal forces F_(1) and F_(2) the must be applied to hold the system in the position shown in figure-2.48. What is the weight of the suspended block. [42.4 N each, 42.4 N]

[" Two masses "m_(1)" and "m_(2)" are "],[" connected by means of a "],[" light string,that passes over "],[" a light pulley as shown in the "],[" figure.If "m_(1)=2kg" and "m_(2)=],[5kg" and a vertical force "F" is "],[" applied on the pulley then "],[" find the accelerations of the "],[" masses and that of the "],[" pulley when the force is "],[F=70N]

What is the minimum value of applied force F so that both the block lifts up. Consider string to be ideal. The mass of pulley P_(1) is 6 kg and pulley P_(2) is light.

What is the minimum value of applied force F so that both the block lifts up. Consider string to be ideal. The mass of pulley P_(1) is 6 kg and pulley P_(2) is light.

Consider the situation shown in figure. The force F is equal to the (m_2g)/2 . If the area of cross section of the string is A and its Young modulus Y, find the strain developed in it. The string is light and there is no friction anywhere.

Consider the situation shown in figure. The force F is equal to the (m_2g)/2 . If the area of cross section of the string is A and its Young modulus Y, find the strain developed in it. The string is light and there is no friction anywhere.

In figure the tension in the diagram string is 60 N (a) Find the magnitude of the horizontal force F_(1) and F_(2) that must be applied to hold the system In the position shown. (b) What is the weight of the suspended block?

In figure the tension in the diagram string is 60 N (a) Find the magnitude of the horizontal force F_(1) and F_(2) that must be applied to hold the system In the position shown. (b) What is the weight of the suspended block?

An object is in equilibrium under four concurrent forces in the direction shown in figure. Find the magnitudes of F_(1) and F_(2)