In an experiment with a beam balance, an unknown mass `m` is balanced by two known masses of `16 kg` and `4 kg` shown in Fig. The value of the unknown mass `m` is

In a potentiometer experiment, the balancing length with a resistance of 2Omega is found to be 100cm, while that of an unknown resistance is 500cm. Calculate the value of the unknown resistance.

In an experiment for determining the mass of given body using a meter scale suspended horizontally with a thread and a standard weight of 1kg, the power (mass) arm is adjustable and the weight is fixed. If the unknown mass is kept at a distance 65cm from the thread loop, then the given mass (in kg) is:

A man of mass m=2kg is standing on a platform of mass M=5kg , then at any instant.

A bomb of mass 12 kg explodes into two pieces of masses 4 kg and 8 kg. The velocity of mass 4 kg is 20 m/s. Find the velocity of mass 8 kg.

A body of mass 5 kg is suspended by a spring balance on an inclined plane as shown in figure. The spring balance measure

The spring balance A reads 2 kg with a block m suspended from it. A balance B reads 5kg when a beaker with liquid is put on the pan of the balance. The two balances are now so arranged that the hanging mass in inside the liquid in the beaker as shown in the figure. In this situation:

A block of mass 10 kg is suspended throug two light spring balances as shown in figure

Four point masses 1 kg, 1 kg, 2 kg and 2 kg are placed at the corners of a square of side a m as shown in Fig. Find the centre of mass of the system.

A bomb of mass 9kg explodes into two pieces of masses 3kg and 6kg . The velocity of mass 3kg is 16ms^-1 . The kinetic energy of mass 6kg is

A uniform metre rule of mass 100g is balanced on a fulcrum at mark 40cm by suspending an unknown mass m at the mark 20cm. (i) Find the value of m. (ii) To which side the rule will tilt if the mass m is moved to the mark 10cm? (iii) What is the resultant moment now? (iv) How can it be balanced by another mass of 50 g?