#4 and #5 questions. Thank you!Initial Particle60Temperature300 Kavg. speed465 m/sInitial pressure7.1 atmFinal Particle160Temperature300 Kavg. speed455 m/sfinal pressure18.6 atm Part 3- Gas Speed Distributions1. At the bottom of the screen will be a grey bar with an option that says "Energy". Choose thatoption to access the speed distribution simulator.2. Add in between 50 and 100 of either particle. Record the average speed of the gas and thetemperature.3. Add in 100 more of the same particles. Record the average speed of the gas and thetemperature.4. Why is the average speed the same even through more particles were added, and the pressurewill increase, as we found in part 1?5. Use the appropriate equation to calculate the mass of the gas particle in g/mol.

The average velocity of gas molecules is given by : v=8RTπmHere, R is the gas constant. m…

Answered: #4 and #5 questions. Thank you!…

#4 and #5 questions. Thank you! Initial Particle 60 Temperature 300 K avg. speed 465 m/s Initial pressure 7.1 atm Final Particle 160 Temperature 300 K avg. speed 455 m/s final pressure 18.6 atm

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#4 and #5 questions. Thank you!

Initial Particle	60
Temperature	300 K
avg. speed	465 m/s
Initial pressure	7.1 atm
Final Particle	160
Temperature	300 K
avg. speed	455 m/s
final pressure	18.6 atm

Part 3- Gas Speed Distributions
1. At the bottom of the screen will be a grey bar with an option that says "Energy". Choose that
option to access the speed distribution simulator.
2. Add in between 50 and 100 of either particle. Record the average speed of the gas and the
temperature.
3. Add in 100 more of the same particles. Record the average speed of the gas and the
temperature.
4. Why is the average speed the same even through more particles were added, and the pressure
will increase, as we found in part 1?
5. Use the appropriate equation to calculate the mass of the gas particle in g/mol.

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