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17 Nov 2019
Please answer ALL parts to the questions shown please, than you so much! Consider three identical flasks filled with different gases: Flask 1: CO at 750 tort and 0 degree C Flask 2: N_2 at 250 tort and 0 degree C Flask 3: H_2 at 500 tort and 0 degree C In which flask will the molecules have the greatest average kinetic energy? Flask: In which flask will the molecules have the greatest u_rms? Flask: In which flask will the molecules have the smallest u_rms? Flask: Which flask will have the largest number of molecules? Flask: Rank the flasks in term of increasing gas density Sketch the Boltzmann distributions for the root mean square velocity of CO_2 gas at 50 K, 298 K, and 500 K. Draw all three curves on the same set of axes for comparison and label with corresponding temperature (x-axis = # of moles, y-axis = u_rms). Sketch the Boltzmann distributions for the root mean square velocity of the first four noble gases at 298 K: He, Ne, Ar, and Kr. Draw all four curves on the same set of axes for comparison and label the noble gas (x-axis = # of atoms, y-axis = u_rms).
Please answer ALL parts to the questions shown please, than you so much!
Consider three identical flasks filled with different gases: Flask 1: CO at 750 tort and 0 degree C Flask 2: N_2 at 250 tort and 0 degree C Flask 3: H_2 at 500 tort and 0 degree C In which flask will the molecules have the greatest average kinetic energy? Flask: In which flask will the molecules have the greatest u_rms? Flask: In which flask will the molecules have the smallest u_rms? Flask: Which flask will have the largest number of molecules? Flask: Rank the flasks in term of increasing gas density Sketch the Boltzmann distributions for the root mean square velocity of CO_2 gas at 50 K, 298 K, and 500 K. Draw all three curves on the same set of axes for comparison and label with corresponding temperature (x-axis = # of moles, y-axis = u_rms). Sketch the Boltzmann distributions for the root mean square velocity of the first four noble gases at 298 K: He, Ne, Ar, and Kr. Draw all four curves on the same set of axes for comparison and label the noble gas (x-axis = # of atoms, y-axis = u_rms).
Casey DurganLv2
21 Jun 2019