An experimenter measure the length of a rod . Initially the experiment and the rod are at rest with respect to the lab. Consider the following statements.

An experimenter measures the length of a rod. In the caese listed, all motions are with respect to the lab and parallel to the length will be minimum?

Describe the experiment to measure the increase in length of the stem tip using an arc auxanometer.

A uniform rod of mass M and length a lies on a smooth horizontal plane. A particle of mass m moving at a speed v perpendicular to the length of the rod strikes it at a distance a/4 from the centre and stops after the collision. Find a. the velocity of the cente of the rod and b. the angular velocity of the rod abut its centre just after the collision.

In the Ingen Hauz's experiment the wax melts up to lengths 10 and 25 cm on two identical rods of different materials. The ratio of thermal conductivities of the two materials is

Two particles of mass m each are attached to a light rod of length d, one at its centre and the other at a free end, The rod is fixed at the other end and is rotated in a plane at an angular speed omega . Calculate the angular momentum of the particle at the end with respect to the particle at the centre

Suppose the rod in the previous problem has a mass of 1 kg distributed uniformly over its length. a. find the initial angular acceleration of the rod. b. Find the tension in the supports to the blocks of mass 2 kg and 5kg .

Two rods of same length and cross section are joined along the length. Thermal conductivities of first and second rod are K_1 and K_2 . The temperature of the free ends of the first and second rods are maintained at θ_1 and θ_2 respectively. The temperature of the common junction is

If the radius and length of a copper rod are both doubled, the rate of flow of heat along the rod increases

If the mass m(x) (in kilograms) of a thin rod of length x(in metres) is given by, m(x)=sqrt(3x) then what is the rate of change of mass with respect to the length when it is x = 27 meters.

The lengths and radii of two rods made of same material are in the ratios 1 : 2 and 2 : 3 respectively. If the temperature difference between the ends for the two rods be the same, then in the steady state, the amount of heat flowing per second through them will be in the ratio