The mass of block is `m_(1)` and that of liquid with the vessel is `m_(2)` The block is suspended by a string (tension T) partically in the liquid. The reading of the weighing machine placed below the vessel

The block of mass m is at rest. Find the tension in the string A .

The block of mass m is at rest. Find the tension in the string A .

A block of mass 10 kg is suspended by three strings as shown in figure . Tension T_(2) is

A block of mass 10 kg is suspended by three strings as shown in figure . Tension T_(2) is

Two blocks of masses m_1 and m_2 , which are connected with a light string, are placed over a friction less pulley. This set up is placed over a weighing machine, as shown. Three combination of masses m_1 and m_2 are used, in first case m_1=6kg and m_2=2kg , in second case m_1=5kg and m_2=3kg and in third case m_1=4kg and m_2=4kg. masses are held stationary initially and then released if the readings of the weighing machine after the release in three cases are W_1 , W_2 and W_3 respectively then:

Two blocks of masses m_1 and m_2 , which are connected with a light string, are placed over a friction less pulley. This set up is placed over a weighing machine, as shown. Three combination of masses m_1 and m_2 are used, in first case m_1=6kg and m_2=2kg , in second case m_1=5kg and m_2=3kg and in third case m_1=4kg and m_2=4kg. masses are held stationary initially and then released if the readings of the weighing machine after the release in three cases are W_1 , W_2 and W_3 respectively then:

A block of mass M si suspended by two strings angles theta_(1) and theta_(2) with the horizontal. Find the tensions in the strings.

A block of mass 10 kg is suspended with two strings as shown in the fig. Find the tensions T_(1) and T_(2) in the two string.

Two blocks A and B having mass m = 1 kg and M = 4 kg respectively are attached to a spring and placed vertically on a weighing machine as shown in the figure. Block A is held so that the spring is relaxed. A is released from this position and it performs simple harmonic motion with angular frequency w = 25 rad s^(-1) . The spring remains vertical (a) Find the reading of the weighing machine as a function of time. Take t = 0 when A is released. (b) What is the maximum reading of the weighing machine ?

A 20 N metal block is suspended by a spring balance. A beaker containing some water is placed on a weighing machine which reads 40 N . The spring balance is now lowered so that the block gets immersed in the water. The spring balance now reads 16 N . The reading of the weighing machine will be.