Full solution please (a) The graph on the right illustrates thebehaviour of 1 mol each of twoA pV/ Pa m3CO2different gases, CO2 and H2, at298K.(Given: R = 8.31 J K-'mol-1)H2ideal gas(i)Calculate the value of X.Give two reasons why CO2(ii)shows a greater deviationfrom ideality than H2.p/ Pa(b) Sketch, using the axes above, the corresponding graph for 1 mol of HF at 298 K andexplain your answer.

PV=nRT This is the ideal gas equation. In which P is pressure, V is volume , n is number of moles ,…

(a) The graph on the right illustrates the behaviour of 1 mol each of two pV/ Pa m3 CO2 different gases, CO2 and H2, at 298K. (Given: R = 8.31 J K-'mol-1) H2 %3D ideal gas (i) Calculate the value of X. (ii) shows a greater deviation from ideality than H2. Give two reasons why CO2 p/ Pa (b) Sketch, using the axes above, the corresponding graph for 1 mol of HF at 298 K and explain your answer.

(a) The graph on the right illustrates the behaviour of 1 mol each of two pV/ Pa m3 CO2 different gases, CO2 and H2, at 298K. (Given: R = 8.31 J K-'mol-1) H2 %3D ideal gas (i) Calculate the value of X. (ii) shows a greater deviation from ideality than H2. Give two reasons why CO2 p/ Pa (b) Sketch, using the axes above, the corresponding graph for 1 mol of HF at 298 K and explain your answer.

Chemistry: Principles and Reactions

8th Edition

ISBN:9781305079373

Author:William L. Masterton, Cecile N. Hurley

Publisher:William L. Masterton, Cecile N. Hurley

Chapter8: Thermochemistry

Section: Chapter Questions

Problem 72QAP: On complete combustion at constant pressure, a 1.00-L sample of a gaseous mixture at 0C and 1.00 atm...

See similar textbooks

Related questions

Q: B. Kinds of Mixtures Solubility with water Classification Homogenous (Soluble or Insoluble) Tyndall…

A: A solution is a mixture of a solute and solvent where both are in the same phase. A suspension is a…

Q: It says the solution is incorrect

A: Given that, for carbon-11 The half-life is t1/2 = 20.3 min. The initial amount is N0 = 1×107 atoms.…

Q: Characteristics Tube 1 – 10 Drops Of Benzene

Q: The substance that precipitates in a positive Benedict test is:

A: Benedict test is a test that can be used to test the presence of reducing sugars in a given analyte.…

Q: Part A & b and why in part A with this solution decrease in volume

A: In osmosis, the solvent molecules (water molecules) move across the membrane from the solution…

Q: A. Test for Physlcal State (cite your references) Characterlstics Tube 1- 10 drops of Tube 2 - 10…

A: Benzene : Physical state = liquid Colour= colourless or yellow liquid at room temperature Odour =…

Q: how to solve colligative problems

Q: Solubility of gases in water with _____ pressure, _____ ( Please type answer note write by…

A: Solubility of gases in water with _____ pressure, _____

Q: The original concentration of a solution is 200 mg/dL. The solution was diluted 1:5. Then one part…

Q: What is the expressed in mM? concentration of the 0.25M glucose solution

A: milimolar concentration (mM) = 1000 x molar concentration (M)

Q: Suspensions also show Tyndall effect (compare)

A: Suspensions also show Tyndall effect that has to be compare.

Q: Differentiate between simple distillation and fractional distillation. Please elaborate.

A: Simple distillation and fractional distillation

Q: A 6.00ml portion of an 8.00M stock solution is to be diluted to 0.400M. What will be the final…

A: Given : Initial concentration = 8.00 M Initial volume = 6.00 mL Final concentration = 0.400 M To…

Q: Distilled water has a flat taste while drinking water has a pleasant taste. What gives the taste of…

A: Distilled water is a pure form of water it's contains only one kind of molecules that is H2O…

Q: What is a solution?

A: Solutions are homogeneous mixture of two or more components. Homogeneous means that it's composition…

Q: Why are solutions heated before recrystallization?

A: Recrystallization is a process of purification of impure compounds. The basic principle of…

Question

Full solution please

(a) The graph on the right illustrates the
behaviour of 1 mol each of two
A pV/ Pa m3
CO2
different gases, CO2 and H2, at
298K.
(Given: R = 8.31 J K-'mol-1)
H2
ideal gas
(i)
Calculate the value of X.
Give two reasons why CO2
(ii)
shows a greater deviation
from ideality than H2.
p/ Pa
(b) Sketch, using the axes above, the corresponding graph for 1 mol of HF at 298 K and
explain your answer.

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

SEE SOLUTION Check out a sample Q&A here

Step 1

Step 2

Step 3

Step 4

Step by step

Solved in 4 steps with 2 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, chemistry and related others by exploring similar questions and additional content below.

Similar questions

On complete combustion at constant pressure, a 1.00-L sample of a gaseous mixture at 0C and 1.00 atm (STP) evolves 75.65 kJ of heat. If the gas is a mixture of ethane (C2H6) and propane (C3H8), what is the mole fraction of ethane in the mixture?
Which of the following quantities can be taken to be independent of temperature? independent of pressure? (a) H for a reaction (b) S for a reaction (c) G for a reaction (d) S for a substance
Use the data in Table 2.2 to determine Hp T for Ar at 0C and 1atm. Make any reasonable assumptions necessary.
Carbon monoxide poisoning results when carbon monoxide replaces oxygen bound to hemoglobin. The oxygenated form of hemoglobin, HbO2 carries O2 to the lungs. HbO2(aq)+CO(g)HbCO(aq)+O2(g) At 98.6°F (37°C), G° for the reaction is about -14 kJ. What is the ratio of [HbO2] to [HbCO] when the pressure of CO is the same as that of O2?
the ionic compound L2O3(s) is the ionic compound formed from oxygen and a metal with the form L(s) at 1.00 bar and 298 K. (a) Draw the Lewis structure for L2O3. Assume that all the valence electrons from L are required. (b) Use the following information to determine the enthalpy of formation for L2O3(s). Express your answer in kJZ(mol L2O3(s)). Lattice energy for L2O3(s) = -14836 kJ mol1 AHsub for L(s) = 358 kJ mol 1 First ionization energy for L(g) = 577 kJ mol 1 Second ionization energy for L(g) = 1794 kJ mol 1 Third ionization energy for L(g) = 3820 kJ mol 1 Bond dissociation energy for O2(g) = 498 kJ mol 1 %3D First electron affinity for O = -141 kJ mol 1 Second electron affinity for O = 744 kJ mol 1
The process abc shown in the pV-diagram in Fig. involves0.0175 mol of an ideal gas. (a) What was the lowest temperaturethe gas reached in this process? Where did it occur? (b) How muchwork was done by or on the gas from a to b? From b to c? (c) If 215 Jof heat was put into the gas during abc, how many of those joules wentinto internal energy?
1.30. Determine the expressions for the following, assuming that the ideal gas law holds. (a) (b) (с) (d) an aV ат T,p др/v,n an ат p,V др an T,V f
3. One mole of liquid water at 100 °C is heated until the liquid is converted entirely to vapor at 100 °C and 1 atm pressure. Calculate q, w, AE and AH for each of the following. (a) The vaporization is carried out in a cylinder where the external pressure on the piston is maintained at 1 atm throughout. (b) The cylinder is first expanded against vacuum (Pext = 0) to the same volume as in part (a), and then sufficient heat is added to vaporize the liquid completely to 1 atm pressure.
For a van der Waals gas: a V2 Calculate AUm (in J mol-) for the isothermal reversible expansion of N2 gas from an initi volume of 1.00 L to 24.8 L at 298 K. (3) [Given: a(N2) = 1.352 L2. atm mol-2]
Jj.62.
A high pressure gas canister bursts. When the debris is cleared, frost is found to have formed on the metal. A scientist decides to use the ideal gas law to find out how much the temperature of the gas changed when the cylinder burst. Why is this approach incorrect? A They don't know the number of moles of the gas. (B) The gas was being stored as a compressed liquid. C The expansion was adiabatic. (D) The expansion was isothermal.
Write the remarks about the KP of ideal-gas mixtures ?