When a system is taken from state i to a state f along path iaf, Q = 50 J and W = 20 J. Along path ibf, Q = 35 J. If W = -13 J for the curved return path f i, Q for this path is

A given mass of a gas expands from state A to state B by three paths 1, 2 and 3 as shown in the figure. If W_1 , W_2 and W_3 respectively are the work done by the gas along the three paths, then. br>

An ideal gas is made to go through a cyclic thermodynamical process in four steps. The amount of heat involved are Q_1 = 600 J , Q_2 = -400 J, Q_3 = -300 J and Q_4 = 200 J respectively. Then the corresponding work involved are W_1 = 300J , W_2 = -200 J, W_3 = -150 J and W_4 . What is the value of W_4 ?

Figure below shows two paths that may be taken by a gas to go from a state A to a state C. In process AB, 400 J of heat is added to the system and in process BC, 100 J of heat is added to the system. The heat absorbed by the system in the process AC will be

A system is taken to its final state from initial state in hypothetical paths as shown in the figure. Calculate the work done in each case.

A system goes from P to Q by two different paths in the P.V. diagram as shown in figure. Heat given to the system in path 1 is 1000 J . The work done by the system along path 1 is more than path 2 by 100 J What is the heat exchanged by the system in path 2 ?

A force vec((F)) = - K(yhat(i) + x hat(j)) (where K is a positive constant) acts on a particle moving in the X-Y plane. Starting from the origin, the particle is taken along the positive X-axis to the point (a, 0) and then parallel to the Y-axis to the point (a,a). The total work done by the force vec(F) . of the particle is

The speed of swimmer in still water is 20 m/s. The speed of river water is 10 m/s and is flowing due east. If he is standing on the south bank and wishes to cross the river along the shortest path, the angle at which he should make this strokes w.r.t.north is given by:

Two particles of equal mass have velocities vec v_1 = 2 hat i= m//s^-1 and vec v_2 = 2hat j m//s^-1 . First particle has an acceleration vec a_1= (3 hat i+ 3 hat j) ms^-2 while the acceleration of the other particle is zero. The centre of mass of the two particles moves in a path of.