1) Justify your prediction for the T of 1-butanol.2) discuss how well your experimental results matched your prediction for the T of 1-butanol.3) Which of the alcohols measured has the strongest intermolecular forces? 4) Which of the alcohols measured has the weakest intermolecular forces? 5) Using your knowledge of intermolecular forces explain your response to questions #3 and #46) Look up the theoretical boiling point for each compound. Arrange the compounds by increasing boiling point. 7) Prepare a bar graph of your experimental results. Plot the number of carbons in the alcohol on the x-axis and the T on the y-axis. **DATA**| Chemical | Maximum Temp. | Minimum Temp. | ΔT ||--------------|---------------|---------------|-----|| Methanol | 20.4°C | 3.5°C | 16.9°C || Ethanol | 21.6°C | 9.6°C | 12°C || 1-propanol | 22°C | 16.4°C | 5.6°C || Prediction for 1-butanol | | | || 1-butanol | 23.2°C | 20.3°C | 2.9°C |**POST-LAB**1. Justify your prediction for the ΔT of 1-butanol.2. Discuss how well your experimental results matched your prediction for the ΔT of 1-butanol.3. Which of the alcohols measured has the strongest intermolecular forces?4. Which of the alcohols measured has the weakest intermolecular forces?5. Using your knowledge of intermolecular forces, explain your response to questions #3 and #4.6. Look up the theoretical boiling point for each compound. Arrange the compounds by increasing boiling point.7. Prepare a bar graph of your experimental results. Plot the number of carbons in the alcohol on the x-axis and the ΔT on the y-axis.

(a) The low value of∆T for butanol is attributed to the presence of H bonding in its molecule and…

Answered: 1) Justify your prediction for the T of…

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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1) Justify your prediction for the T of 1-butanol. 2) discuss how well your experimental results matched your prediction for the T of 1-butanol. 3) Which of the alcohols measured has the strongest intermolecular forces? 4) Which of the alcohols measured has the weakest intermolecular forces? 5) Using your knowledge of intermolecular forces explain your response to questions #3 and #4 6) Look up the theoretical boiling point for each compound. Arrange the compounds by increasing boiling point. 7) Prepare a bar graph of your experimental results. Plot the number of carbons in the alcohol on the x-axis and the T on the y-axis.

**DATA**

| Chemical | Maximum Temp. | Minimum Temp. | ΔT |
|--------------|---------------|---------------|-----|
| Methanol | 20.4°C | 3.5°C | 16.9°C |
| Ethanol | 21.6°C | 9.6°C | 12°C |
| 1-propanol | 22°C | 16.4°C | 5.6°C |
| Prediction for 1-butanol | | | |
| 1-butanol | 23.2°C | 20.3°C | 2.9°C |

**POST-LAB**

1. Justify your prediction for the ΔT of 1-butanol.
2. Discuss how well your experimental results matched your prediction for the ΔT of 1-butanol.
3. Which of the alcohols measured has the strongest intermolecular forces?
4. Which of the alcohols measured has the weakest intermolecular forces?
5. Using your knowledge of intermolecular forces, explain your response to questions #3 and #4.
6. Look up the theoretical boiling point for each compound. Arrange the compounds by increasing boiling point.
7. Prepare a bar graph of your experimental results. Plot the number of carbons in the alcohol on the x-axis and the ΔT on the y-axis.

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