Two weights `W_(1)` and `W_(2)` in equilibrium and at rest, are suspended as shown in figure. Then the ratio `(W_(1))/(W_(2))` is `:`

Two weights W_1 and W_2 in equilibrius and at rest are suspended as shown in figure. Then the ratio (W_1)/(W_2) is:

A 100 W bulb B_(1) and two 60 W bulbs B_(2) and B_(3) , are connected to a 250V source, as shown in the figure now W_(1),W_(2) and W_(3) are the output powers of the bulbs B_(1),B_(2) and B_(3) respectively then

Two weights w_(1) and w_(2) are suspended from the ends of a light string passing over a smooth fixed pulley. If the pulley is pulled up at an acceleration g , the tension in the string will be

Two wires W_(1) and W_(2) are made of same material and have the same length. The radius of cross-section of W_(2) is twice that of W_(1). Same load is suspended from both of them. If the strain in W_(1) is 4, then that in W_(2) will be

Two wires W_(1) "and"W_(2) have the same radius r and respective densities p_(1) "and" p_(2) such that p_(2) = 4p_(1). They are joined together at the point O, as shown in the figure. The combination is used as a sonometer wire and kept udner tension T. The point O is midway between the two bridges. When a stationary waves is set up in the composite wire, the joint is found to be a node. The ratio of the number of antinodes formed in W_(1) "to" W_(2) is-

Three equal masses are suspended from frictionless pulleys as shown in figure-2.46. If the weight w_(2) in figure is 400 N, what must be the values of the weights w_(1) and w_3) . [240 N, 320 N]

A rod AB of weight w_(1) is placed over a sphere of weight w_(2) shown in figure.Ground is rought and there is no friction between rod and sphere and sphere and wall. Draw free body diagrame of sphere and rod separalety.

A given mass of a gas expands from the state A to the state B by three paths 1,2 and 3 as shown in the figure, If W_(1),W_(2) and W_(3) respectively be the work done by the gas along the three paths then