OWLV2 FOR MASTERTON/HURLEY'S CHEMISTRY:
8th Edition
ISBN: 9781305079304
Author: Hurley
Publisher: IACCENGAGE
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Chapter 5, Problem 81QAP
Interpretation Introduction
(a)
Interpretation:
A ‘before’ sketch showing a cylinder attached to a piston initially containing 10 molecules of He gas needs to be depicted. An ‘after’ sketch representing a decrease in temperature at constant pressure also needs to be depicted.
Concept introduction:
The ideal gas equation is a
Where R is the universal gas constant = 0.0821 L.atm/mol-K
When the temperature is decreased at constant pressure (and keeping the moles (n) constant) then volume will also decrease since ‘V’ is directly proportional to ‘T’.
It is mathematically represented as follows:
Interpretation Introduction
(b)
Interpretation:
A ‘before’ sketch showing a cylinder attached to a piston initially containing 10 molecules of He gas needs to be depicted. An ‘after’ sketch representing a decrease in pressure from 1000 mmHg to 500 mmHg at constant temperature also needs to be depicted.
Concept introduction:
When number of moles and temperature is constant and change in pressure takes place. The relation between pressure and volume is using ideal gas equation is as follows:
Here, P is pressure and V is volume.
Interpretation Introduction
(c)
Interpretation:
A ‘before’ sketch showing a cylinder attached to a piston initially containing 10 molecules of He gas needs to be depicted. An ‘after’ sketch representing an addition of 5 molecules of H2 gas at constant temperature and pressure also needs to be depicted.
Concept introduction:
Noble gases do not react with the any gas added to the system. In such cases, the total number of moles of system become equal to the sum of number of moles of noble gas and the added gas.
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MISSED THIS? Read Section 19.9 (Pages 878-881); Watch IWE 19.10
Consider the following reaction:
CH3OH(g)
CO(g) + 2H2(g)
(Note that AG,CH3OH(g) = -162.3 kJ/mol and AG,co(g)=-137.2 kJ/mol.)
Part A
Calculate AG for this reaction at 25 °C under the following conditions:
PCH₂OH
Pco
PH2
0.815 atm
=
0.140 atm
0.170 atm
Express your answer in kilojoules to three significant figures.
Ο ΑΣΦ
AG = -150
Submit
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kJ
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Calculate the free energy change under nonstandard conditions (AGrxn) by using the following relationship:
AGrxn = AGrxn + RTInQ,
AGxn+RTInQ,
where AGxn is the standard free energy change, R is the ideal gas constant, T is the temperature in kelvins, a
is the reaction quotient.
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Chapter 5 Solutions
OWLV2 FOR MASTERTON/HURLEY'S CHEMISTRY:
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