In the accompanying diagram `W_(1)` is 5kg weight and `W_(2)` is 3 kg weight. If the component of `W_(1)` parallel to the incline is equal to `W_(2)`, then the angle `theta` is nearly :

A uniform rod of length L and weight W_(R) is suspended as shown in the accompanying figure. A weight W is added to the end of the rod. The rod rests in horizontal position and is hinged at O. the support wire is at an angle theta to the rod. What is the tension T in the wire ?

Statement-1: Weight of a empty balloon measured in air is w_(1) . If air at atmospheric pressure is filled inside balloon and again weight of balloon is measured. Weight of balloon is w_(2) is second case. Then W_(2) is equal to w_(1) Statement-2: Upthrust is equal to weight of the fluid displaced by the body.

The weight of an object in the coal mine, sea level and at the top of the mountain are W_(1),W_(2) and W_(3) respectively, then

An empty balloon weighs W . If air equal in weight to W is pumped into the balloon, the weight of the balloon becomes W_(2) . Suppose that the density of air inside and outside the balloon is the same. Then

Angular speed of rotation of the earth is omega_(0). A train is running along the equator at a speed v from west to east. A very sensitive balance inside the train shows the weight of n object as W_(1). During the return journey when the train is running atsame speed from east to west the balance shows the weight of the object to be W_(2). Weight of the object when the train is at rest was shown to be W_(0) by the balance. Calculate W_(2) – W_(1).

A beam balance of unequal arm length is used by an unscruplus trader. When an object is weighed on left pan. The weight i found to be W_(1) . When the object is weighed on the right plane, the weight is found to be W_(2) . If W_(1) ne W_(2) , the correct weight of the object is

The relative density of a material of a body is found by weighing it first in air and then in water. If the weight of he body in air is W_(1) = 8.00 +- N and the weight in water is W_(2) = 6.00 +- 0.05 N , then the relative density rho_(r ) = W_(1)//( W_(1) - W_(2)) with the maximum permissible eror is