calculate the density of steam at 500C and 40MPa : i) assuming it behaves as a...

Determine the percent error in the vapor volume from the real value (experimental data) for water...

Determine the percent error in the vapor volume from the real value (experimental data) for water at 10bar, 300oC using the follow equations of state: i) Ideal gas ii) Van der Waals iii) Peng Robinson.

Using both the van der Waals equation of state and the Peng Robinson equation of state,...

Using both the van der Waals equation of state and the Peng Robinson equation of state, estimate the volume needed to hold 10 moles of propane at a)P1=40 bar and 15°C b)P2= 20 bar and 15°C

Calculate the molar volume, V , for a sample of carbon dioxide at 250 bar and...

Calculate the molar volume, V , for a sample of carbon dioxide at 250 bar and 400 C assuming: (a) it is an ideal gas. (b) the carbon dioxide obeys the van der Waals equation of state. (c) the carbon dioxide behaves like a Redlich-Kwong gas. Please include full answer so i can understand and I will rate. Thanks!

a.The derivative (∂V/∂T)P is tedious to calculate by implicit differentiation of an equation of state such...

a.The derivative (∂V/∂T)P is tedious to calculate by implicit differentiation of an equation of state such as the Peng-Robinson equation. Show that calculus permits us to find the derivative in terms of derivatives of pressure, which are easy to find, and provide the formula for this equation of state. b. Using the Peng-Robinson equation, calculate the isothermal compressibility of ethylene for saturated vapor and liquid at the following conditions: {Tr = 0.7, P = 0.414 MPa}; {Tr = 0.8, P...

At high pressures, real gases do not behave ideally. Calculate the pressure exerted by 29.0 g...

At high pressures, real gases do not behave ideally. Calculate the pressure exerted by 29.0 g H2 at 20.0°C in a 1.00 L container. Use the van der Waals equation and data in the hint to calculate the pressure exerted. Now, calculate the pressure exerted, assuming that the gas behaves as an ideal gas.

a) show that for a solid steam, it behaves like an ideal gas, the sublimation curve...

a) show that for a solid steam, it behaves like an ideal gas, the sublimation curve has the form P = -B / T + A where A and B are constants. b) For Mg at 700k, B 7527. Calculate the heat of sublimation of Mg at this temperature in cal / mol. c) Is the equation deduced in a) useful to determine the sublimation curve?

Use the van der Waals equation of state to calculate the pressure of 4.00 mol of...

Use the van der Waals equation of state to calculate the pressure of 4.00 mol of Xe at 483 K in a 4.20-L vessel. Van der Waals constants can be found here. Use the ideal gas equation to calculate the pressure under the same conditions.

At high pressures, real gases do not behave ideally. Calculate the pressure exerted by 39.5 g...

At high pressures, real gases do not behave ideally. Calculate the pressure exerted by 39.5 g H2 at 20.0°C in a 1.00 L container assuming in Part 1 non-ideal behavior and in Part 2 ideal behavior. 7th attempt Part 1 Use the van der Waals equation and data in the hint to calculate the pressure exerted. 862 atm Part 2 Now, calculate the pressue excerted assuming that the gas behaves as an ideal gas.

Use the van der Waals equation of state to calculate the pressure of 2.90 mol of...

Use the van der Waals equation of state to calculate the pressure of 2.90 mol of CH4 at 457 K in a 4.50 L vessel. Van der Waals constants can be found here. P= ________ atm Use the ideal gas equation to calculate the pressure under the same conditions. P= ______ atm

Calculate the pressure exerted by 3.4 mol of ammonia (NH3) behaving as (a) a perfect gas,...

Calculate the pressure exerted by 3.4 mol of ammonia (NH3) behaving as (a) a perfect gas, (b) a van der Waals gas when it is confined under the following conditions: (i) at 260 K in 22 dm3, (ii) at 520 K in 220 cm3. The van der Waals parameters of NH3 can be found in Table 1.6 of our textbook.