Related MCQs

• An ideal gas of mass m is contained in a rigid tank of volume V at a pressure p. During a reversible process its pressure reduces to \(p_2\). Following statements are made regarding the process.(P) Heat is transferred from the gas.(Q) Work done by the gas is zero.(R) Entropy of the gas remains constant.(S) Entropy of the gas decreases.Among the above statements, the correct ones are
• If the value of n is infinitely large in a polytropic process PVn = C, then the process is known as constant
• In which process the work-done is zero?
• A reversible thermodynamic cycle containing only three processes and producing work is to be constructed. The constraints are: (a) there must be one isothermal process, (b) there must be one isentropic process, (c) the maximum and minimum cycle pressures and the clearance volumes are fixed, and (d) polytropic processes are not allowed. Then the numbers of possible cycles are
• In the context of moving control volume, which of the following statements is more relevant?
• In a reversible non-flow process, the gas undergoes a process according to, PV = 2.8Where P is in bar and V is in m3. What will be the work done by the gas if the pressure of the gas increases from 0.7 bar to 7 bar? [Assuming e2.3 = 10]
• In adiabatic process \(\frac{T_1}{T_2}\) =
• An ideal gas is stored in a piston-cylinder arrangement. If the piston is moved in such a way that the volume of the gas gets doubled at the constant temperature, then the pressure of the gas becomes/remains
• A stationary mass of gas is compressed without friction from an initial state of 0.5 m3 to and 0.2 MPa to a final state of 0.3 m3 and 0.2 MPa. Determine the work done by the system.
• A perfect gas is compressed to half of its initial volume. This is done using: Process I- Isothermal process and Process II- Polytropic process with index, n = 1.25 Larger work input is required in: