please help Where n-no.particles/m k-Boltzmann constant-1.3800x102J/K R(gas constant) NAk NA 6.022x10molecules/kmol M(molecular wt in kg)-NAm(molecular mass in kg) Show that the flux thru a hole n...
Where n-no.particles/m k-Boltzmann constant-1.3800x102J/K R(gas constant) NAk NA 6.022x10molecules/kmol M(molecular wt in kg)-NAm(molecular mass in kg) Show that the flux thru a hole nv 4 (particles/m's) Where average value of the molecular speed)dvsinododo/n Use these concepts to solve the following problem. A 22.4m1 insulated tank of carbon monoxide contains 1 kmol at a pressure of 10bar and is stored in a large warchouse. It is leaking thru a small hole of with a diameter of 0.1mm cross sectional area into the warchouse of volume 10.000m. How long will it take for the air in the warehouse to reach a dangerous concentration of 500 ppm assuming the temperature in the room and tank remain at 300K? The gas may be treated as an ideal gas and one kmole of gas at latm and 300K occupies a volume of 22.4m The following integral may be useful 1/2α2 where v ranges from10 to oo fv3c"v2dv
Where n-no.particles/m k-Boltzmann constant-1.3800x102J/K R(gas constant) NAk NA 6.022x10molecules/kmol M(molecular wt in kg)-NAm(molecular mass in kg) Show that the flux thru a hole nv 4 (particles/m's) Where average value of the molecular speed)dvsinododo/n Use these concepts to solve the following problem. A 22.4m1 insulated tank of carbon monoxide contains 1 kmol at a pressure of 10bar and is stored in a large warchouse. It is leaking thru a small hole of with a diameter of 0.1mm cross sectional area into the warchouse of volume 10.000m. How long will it take for the air in the warehouse to reach a dangerous concentration of 500 ppm assuming the temperature in the room and tank remain at 300K? The gas may be treated as an ideal gas and one kmole of gas at latm and 300K occupies a volume of 22.4m The following integral may be useful 1/2α2 where v ranges from10 to oo fv3c"v2dv