A pure sample of Substance S is put into an evacuated flask. The flask is then heated steadily and the temperature measured as time passes. The results aregraphed below, in the middle (in green).Identical experiments are now run on Substance Y and Substance Z. Substance Y is just like S except that it has a lower enthalpy of fusion AH. Substance Zis just like S except that it has a higher enthalpy of vaporization AH,.Select the graphs below, on the left and right, that show the results you expect for these new experiments.temperature (°C)Substance Y(lower AH₂)added heat (kJ/mol)2345temperature (°C)Substance Sadded heat (kJ/mol)temperature (°C)Substance Z(higher AH₂)added heat (kJ/mol)2345

Answered: A pure sample of Substance S is put…

Chemistry

10th Edition

ISBN:9781305957404

Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste

Chapter1: Chemical Foundations

Section: Chapter Questions

Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...

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A pure sample of Substance S is put into an evacuated flask. The flask is then heated steadily and the temperature measured as time passes. The results are
graphed below, in the middle (in green).
Identical experiments are now run on Substance Y and Substance Z. Substance Y is just like S except that it has a lower enthalpy of fusion AH. Substance Z
is just like S except that it has a higher enthalpy of vaporization AH,.
Select the graphs below, on the left and right, that show the results you expect for these new experiments.
temperature (°C)
Substance Y
(lower AH₂)
added heat (kJ/mol)
2
3
4
5
temperature (°C)
Substance S
added heat (kJ/mol)
temperature (°C)
Substance Z
(higher AH₂)
added heat (kJ/mol)
2
3
4
5

Expert Solution

Step 1

The steps starting from the origin are-

1) heating of solid

2) fusion

3) heating of liquid

4) evaporation

5) heating of gas

Now, as Y has a higher heat capacity in the gaseous phase, so it's increase in temperature with adding heat will be slow in the gaseous phase. So, step 5 will have a lower slope as compared to S.

So, the graph for Y is the one on the right.

Now, as Z has a lower enthalpy of fusion, so the segment for the step 2 will be shorter than that in the graph for S.

The graph of Z is not the either one that you have given.

Please look for a graph which is exactly like S except for it's segment for step 2 is shorter. That is the lower horizontal segment.

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