Calculate the Joule-Thomson coefficient at 15 °C for nitrogen as a Berthelot gas and determine its...

Calculate the density as a real gas of 1 mol of nitrogen gas at -106 °...

Calculate the density as a real gas of 1 mol of nitrogen gas at -106 ° C and 100 atm. The critical parameters are Pc = 33.5 atm and Tc = 126.20 K.

Given that μ = 1.11 K atm-1 for carbon dioxide, calculate the value of its isothermal...

Given that μ = 1.11 K atm-1 for carbon dioxide, calculate the value of its isothermal Joule-Thompson coefficient. Calculate the energy that must be supplied as heat to maintain constant temperature when 12.0 mol CO2 flows through a throttle in an isothermal Joule-Thompson experiment and the pressure drop is 55 atm.

A gas stream contains 15 mole% hexane and the remainder nitrogen. The stream flows to a...

A gas stream contains 15 mole% hexane and the remainder nitrogen. The stream flows to a condenser, where its temperature is reduced and some of the hexane is liquefied. The hexane mole percent in the gas stream leaving the condenser is 4. Liquid hexane condensate is recovered at a rate of 1.0 L/min. You may take the specific gravity of liquid hexane to be 0.6548. What is the flow rate of the gas stream leaving the condenser in mol/min? mol/min...

ir is mostly a mixture of diatomic oxygen and nitrogen; treat it as an ideal gas...

ir is mostly a mixture of diatomic oxygen and nitrogen; treat it as an ideal gas with ?=1.40, ?v =20.8J⋅mol−1⋅K−1. Theuniversalgasconstantis?=8.315J⋅mol−1 K−1. The compression ratio of a diesel engine is 15:1, meaning that air in the cylinders is compressed to 1/15 of its initial volume. If the initial pressure is 1.01 × 105 Pa and the initial temperature is 300 K, find: i) The final temperature after adiabatic compression. ii) The final pressure after adiabatic compression. iii) How much work...

1a. A sample of nitrogen gas in a 5.7-L container at a temperature of 19°C exerts...

1a. A sample of nitrogen gas in a 5.7-L container at a temperature of 19°C exerts a pressure of 3.1 atm. Calculate the number of moles of gas in the sample 1b. Given that 8.99 moles of carbon monoxide gas are present in a container of volume 30.90 L, what is the pressure of the gas (in atm) if the temperature is 95°C? 1c. Determine the molar mass of a gas with a density of 1.5877 g/L at 80.00°C and...

An engine running at a temperature of 25°C is fueled by a constant 0.05 l/s gas...

An engine running at a temperature of 25°C is fueled by a constant 0.05 l/s gas flow via a pipe with a diameter of 3.0 cm. At 25°C the gas has a viscosity of 0.85 mPa · s. If the engine runs in a hotter environment, its temperature increases to 55 °C. Determine Reynolds number and the type of gas flow through the pipe at 55 °C, knowing that the gas density is 1,100 kg/m3 at all temperatures and the...

A) A syringe containing 1.25 mL of oxygen gas is cooled from 90.3 ∘C to 0.9...

A) A syringe containing 1.25 mL of oxygen gas is cooled from 90.3 ∘C to 0.9 ∘C. What is the final volume Vf of oxygen gas? B) What is its volume after an additional 0.30 mol of gas is added to the cylinder? (Assume constant temperature and pressure.) Express your answer to three significant figures. C) What is the pressure in a 12.9 L cylinder filled with 0.425 mol of nitrogen gas at a temperature of 300 K ? D)...

One mole of nitrogen gas confined within a cylinder by a piston is heated from 0°C...

One mole of nitrogen gas confined within a cylinder by a piston is heated from 0°C to 852°C at 1.00 atm. (a) Calculate the work of expansion of the gas in joules (1 J = 9.87 × 10−3 L·atm). Assume all the energy is used to do work. (Enter your answer in scientific notation.) (b) What would be the temperature change if the gas were heated with the same amount of energy in a container of fixed volume? (Assume the...

Chemistry - Gas Laws: A 1.00 liter vessel contains 5.00 grams of nitrogen (N2) and 1.50...

Chemistry - Gas Laws: A 1.00 liter vessel contains 5.00 grams of nitrogen (N2) and 1.50 grams of water at 25°C. a)Determine the RMS speed of nitrogen molecules and water molecules in the vapor phase at 25°C. b)Calculate the average kinetic energyper moleculeof nitrogen and of water vapor at 25°C. (Show all work and calculations, include units in answer. If calculations must be used in several parts, rounding should be made to 6 decimal points to ensure accuracy. Final Answers...

1.1A gas mixture consists of 8 mol of H2 and 2 mol of N2. Determine the...

1.1A gas mixture consists of 8 mol of H2 and 2 mol of N2. Determine the mass of each gas and the apparent gas constant of the mixture. (8) 1.2Determine the binary diffusion coefficient (DAB) of O2 in N2 at (a) 200 K and 1 atm, (b) 400 K and 0.8 atm, and (c) 600 K and 3 atm. The binary diffusion coefficient of O2 in N2 at T1 = 273 K and P1 = 1 atm is 1.8 x...