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The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.
The volume of a gas is \(1.8~m^{3}\) at a pressure of \(10^{5}\) Pa and temperature of \(25^{\circ}C$... compressed in an isothermal process to get a pressure of \(5\times10^{5}\) Pa. Determine the amount of heat released.