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Directions: To better understand the relationship among temperature, pressure, and volume of ideal gases, we can use the virtual simulation titled “Gas Law Simulator” which can be accessed at http://ch301.cm.utexas.edu/simulations/js/idealgaslaw. Using the virtual simulator, determine the relationships between the properties of gases by recording the pressure, temperature, and volume of the unknown gas.   To accomplish this task, complete the following table. NOTE: DO NOT ERASE THE GIVEN QUANTITIES. To calculate the number of moles of the gas, use the ideal gas equation. Attach your solutions on another sheet of paper or digitally write. TEMPERATURE PRESSURE VOLUME 120 K   150 L 120 K   300 L 300 K   150 L 300 K   300 L   Answer the following questions:  1.What conditions increase the kinetic energy of the particles of Gas A? 2. What conditions decrease the kinetic energy of the particles of Gas A? 3. What conditions increase the kinetic energy of the particles of Gas A? 4. How many moles of Gas A are present in the cylinder if the temperature of the gas is 50 K, its volume is 450 L, and the pressure inside the cylinder is 2.74 atm?

Directions: To better understand the relationship among temperature, pressure, and volume of ideal gases, we can use the virtual simulation titled “Gas Law Simulator” which can be accessed at http://ch301.cm.utexas.edu/simulations/js/idealgaslaw. Using the virtual simulator, determine the relationships between the properties of gases by recording the pressure, temperature, and volume of the unknown gas.   To accomplish this task, complete the following table. NOTE: DO NOT ERASE THE GIVEN QUANTITIES. To calculate the number of moles of the gas, use the ideal gas equation. Attach your solutions on another sheet of paper or digitally write. TEMPERATURE PRESSURE VOLUME 120 K   150 L 120 K   300 L 300 K   150 L 300 K   300 L   Answer the following questions:  1.What conditions increase the kinetic energy of the particles of Gas A? 2. What conditions decrease the kinetic energy of the particles of Gas A? 3. What conditions increase the kinetic energy of the particles of Gas A? 4. How many moles of Gas A are present in the cylinder if the temperature of the gas is 50 K, its volume is 450 L, and the pressure inside the cylinder is 2.74 atm?

Chemistry
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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To better understand the relationship among temperature, pressure, and volume of ideal gases, we can use the virtual simulation titled “Gas Law Simulator” which can be accessed at http://ch301.cm.utexas.edu/simulations/js/idealgaslaw. Using the virtual simulator, determine the relationships between the properties of gases by recording the pressure, temperature, and volume of the unknown gas.

 

To accomplish this task, complete the following table. NOTE: DO NOT ERASE THE GIVEN QUANTITIES. To calculate the number of moles of the gas, use the ideal gas equation. Attach your solutions on another sheet of paper or digitally write.

TEMPERATURE

PRESSURE

VOLUME

120 K

 

150 L

120 K

 

300 L

300 K

 

150 L

300 K

 

300 L

 

Answer the following questions

1.What conditions increase the kinetic energy of the particles of Gas A?

2. What conditions decrease the kinetic energy of the particles of Gas A?

3. What conditions increase the kinetic energy of the particles of Gas A?

4. How many moles of Gas A are present in the cylinder if the temperature of the gas is 50 K, its volume is 450 L, and the pressure inside the cylinder is 2.74 atm?

 

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