An ideal gas is taken through a process in which the pressure and the volume are changed according to the equation p=kv. Show that the molar heat capacity of the gas for the process is given by (C=Cv+R2. View Solution Knowledge Check A monoatomic gas undergoes a process in which the...
An ideal monatomic gas expands in such a way that TV^((1)/(2))= constant, where T and V are the temperature & volume of the gas, choose the correct option(s)
One mole of an ideal monoatomic gas is compressed from 2.0 atm to 6.0 atm while being cooled from 400 K to 300 K. Calculate the values of Delta U, Delta H, and Delta S for this process. Suppose 0.50 moles of an ideal gas is...
In this section, we consider the case of a single monoatomic fluid with a free liquid-vapor interface to illustrate the application of the theory. 2.2.1 Planar interfaces Let us first assume that the fluid has a planar interface of area A parallel to the x-y plane and a total volume V...
An ideal gas expands isothermally from a state (Po, Vo) to a new state having a volume equal to 4 Vo. Using PV = PoVo, show that the work done by the gas is given by W=PoVoln4 Example 10.3 PROBLEM An ideal gas (γ = 1.4), starting in state A, undergoes the three-step process...
An ideal gas occupies 100 cm{eq}^{3} {/eq} at pressure 2 atm. At what pressure, in atm, does it occupy 56 cm{eq}^{3} {/eq} if the temperature remains constant? Ideal gas law The ideal gas law has been derived from ...
When a gas absorbs heat, it gains thermal energy and can expand and increase in temperature. A cycle in relation to an ideal gas refers to a series of thermodynamic processes that the gas undergoes, allowing for the study of heat absorption. Heat is absorbed by an ideal gas in a cycle ...
Durability and affordability are two main reasons for the widespread consumption of plastic in the world. However, the inability of these materials to unde
V-T graph of a process of monoatomic ideal gas is shown in figure. Sum of work done by the gas in process abod is- View Solution P– V graph for a cyclic process is shown in figure . Work done is given by View Solution
The volume of a monoatomic ideal gas doubles in adiabatic expansion. By considering 135 moles of gas with an initial pressure of 330 kPa and an initial volume of 1.2 m^3, the gas then expands adiabati An ideal gas initially at 255 K ...