INTRO TO CHEMISTRY EBK ACCESS CARD >I<
5th Edition
ISBN: 9781260916430
Author: BAUER
Publisher: MCG
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Question
Chapter 9, Problem 1QC
Interpretation Introduction
Interpretation:
The general properties of gases are to be determined.
Concept Introduction:
Gases do not have a definite volume or shape. They occupy the entire accessible space. As the binding forces are very weak, gaseous molecules are weak as well. The molecules of a gas are in continuous motion and have a high kinetic energy.
Expert Solution & Answer
Explanation of Solution
The general properties of gases are discussed below.
Compressibility:
As the intermolecular spaces are high between gaseous molecules, the pressure exerted on them decreases the volume of the gas. This is known as the compressibility of gases. When the temperature decreases, the amount of energy becomes less, and hence, the mobility is diminished. Due to this, the volume of the gas decreases.
Expansibility:
When pressure is removed, the gas expands. When the temperature increases, energy is gained by the constituent particles. Due to this, they travel faster and away from each other. Thus, the volume of the gas increases.
Ability to diffuse:
The motion of the gaseous molecules is continuous and they move at a very high velocity. The intermolecular spaces are very high. When two gases are mixed, the gaseous particles can pass through the intermolecular spaces of the other. Due to this, both gases get completely mixed. Thus, the mixture of gases remains homogenous.
Low density:
The intermolecular spaces in gases are very high and its volume is very large as compared to its mass. Hence, they have low densities.
Exertion of pressure:
The gases exert pressure in all directions in a vessel.
Conclusion
The general properties of gases have been discussed above.
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LTS
Solid:
AT=Te-Ti
Trial 1
Trial 2
Trial 3
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ΔΗ
Mass water, g
24.096
23.976
23.975
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Temp. change, °C
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Heat of reaction, J
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-193.26J
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16.58K 9.647 kJ 10.85 kr
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Remember: q = mCsAT (m = mass of water, Cs=4.184J/g°C) & qsin =-qrxn &
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qa (24.0969)(4.1845/g) (-2.9°C)=-292.37J
qsin =
qrxn =
292.35 292.37J
AH in J = 292.375 0.2923kJ
0.01763m01
=1.65×107
AH in kJ/mol =
=
16.58K
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qrx
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Chapter 9 Solutions
INTRO TO CHEMISTRY EBK ACCESS CARD >I<
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