If 11.0 g of CCl3F is enclosed in a 1.2 L container, calculate the number of moles of CCl3F in the gas phase.
If 11.0 g of CCl3F is enclosed in a 1.2 L container, calculate the number of...
The vapor pressure of CCl3F at 300 K is 856 torr. If 11.0 g of CCl3F is enclosed in a 1.2 L container, calculate the number of moles of CCl3F in the gas phase. Express your answer using two significant figures.
3. A sample of 35.0 g of Ar is enclosed in a container of volume 0.0950 L at 450K. Calculate P using the ideal gas, the VdW, and Redlich-Kwong eos. Based on your results, does the attractive or repulsive contribution to the interaction potential dominate under these conditions. 3. A sample of 35.0 g of Ar is enclosed in a container of volume 0.0950 L at 450K. Calculate P using the ideal gas, the VdW, and Redlich-Kwong eos. Based on...
A sample containing 80 g of Ar is enclosed in a container of 0.0802 L at 367 K. a) Calculate P, the pressure of the system using the ideal gas, van der Waals, and Redlich Kwong equations of state. The pressure for ideal gas model Pideal gas = | Number |bar The pressure for van der Waals model Pvdw Numberbar The pressure for Redlich-Kwong model PRKEİ Number | bar b) Based on your results (after rounding to the nearest bar),...
1a) Calculate the Volume in L of 1.2 moles of CH4 confined in a container at a pressure of 10 atm at 323 K. Use the ideal gas equation. C=12 g/mol H= 1 g /mol T(K)= T(°C)+273.15 R=0.0821 L-atm/mol-K PV=nRT answer a)0.318 b)90.2 c)3.18 d)31.8 1b) Is the number of particles or spheres in the cubic cell centered on the body? answer 1)3 2)4 3)1 4)2 3c) in the solid state does it form molecular crystals answer a)NaCL b)graphite c)CO2...
The vapor pressure of CCl3FCCl3F at 300 KK is 856 torr. Part A If 11.5 gg of CCl3FCCl3F is enclosed in a 1.1 LL container, calculate the number of moles of CCl3FCCl3F in the gas phase. Express your answer using two significant figures. n gaseous CCl3F = mol
A sample containing 42.4 g of Ar is enclosed in a container of volume 8.43×10−2 L at 375 K. A) Calculate P using the ideal gas equation of state. B) Calculate P using the van der Waals equation of state. C) Calculate P using the Redlich-Kwong equation of state.
A sample containing 42.9 g of Ar is enclosed in a container of volume 8.06×10−2 L at 375 K. A) Calculate P using the ideal gas equation of state. (Should be 415 bar) B) Calculate P using the van der Waals equation of state. (Should be 484 bar) C) Calculate P using the Redlich-Kwong equation of state.
I need help with question or Part C and if you could please write it out so i can understand it? The rest of the question is attached as i know you need to know the rest of the information to anwser the question.... The vapor pressure of CCl3F at 300 K is 856 torr. Part A If 11.5 gg of CCl3FCCl3F is enclosed in a 1.1 LL container, calculate the number of moles of CCl3FCCl3F in the gas phase....
A flexible container at an initial volume of 6.13 L contains 4.51 mol of gas. More gas is then added to the container until it reaches a final volume of 16.7 L. Assuming the pressure and temperature of the gas remain constant, calculate the number of moles of gas added to the container. number of moles of gas: _______ mol
Consider an ideal gas enclosed in a 1.00 L container at an internal pressure of 24.0 atm. Calculate the work, w, if the gas expands against a constant external pressure of 1.00 atm to a final volume of 24.0L. Now calculate the work done if this process is carried out in two steps. 1. First, let the gas expand against a constant external pressure of 1.50 atm to a volume of 16.0L. 2. From the end point of step 1,...