Please solve no.6, 8 & no.1, 4 in chapter2. For an ideal gas PV MRZ where n is the number of moles. Show that the heat transferred in an infinitesimal quasistatic process of an ideal gas can be w...
For an ideal gas PV MRZ where n is the number of moles. Show that the heat transferred in an infinitesimal quasistatic process of an ideal gas can be written as n R 8.) An explosive liquid at temperature 300 K contains a spherical bubble of radius 5 mm, full of its vapour. When a mechanical shock to the liquid causes adiabatic compression of the bubble, what radius of the bubble is required for combustion of the vapour, given that the vapour ignites.spontaneonsly at 1100°C? The ratio Gv/nR is 3.0 for the vapour. chapter 2 At 10 K the molar heat capacity of gold is 0.43JK-1 mol-1. Assume that Gp of gold varies as CP = aT over the range 0 to 10K. Determine the entropy at 10K assuming that S(T=0-0. A. A steam turbine works at 400°C and the exhaust gases are emitted at 150°C. What is the maximum efficiency of the turbine?
For an ideal gas PV MRZ where n is the number of moles. Show that the heat transferred in an infinitesimal quasistatic process of an ideal gas can be written as n R 8.) An explosive liquid at temperature 300 K contains a spherical bubble of radius 5 mm, full of its vapour. When a mechanical shock to the liquid causes adiabatic compression of the bubble, what radius of the bubble is required for combustion of the vapour, given that the vapour ignites.spontaneonsly at 1100°C? The ratio Gv/nR is 3.0 for the vapour. chapter 2 At 10 K the molar heat capacity of gold is 0.43JK-1 mol-1. Assume that Gp of gold varies as CP = aT over the range 0 to 10K. Determine the entropy at 10K assuming that S(T=0-0. A. A steam turbine works at 400°C and the exhaust gases are emitted at 150°C. What is the maximum efficiency of the turbine?