Now consider whether this relationship holds true for a process more complex than simple gas speed: diffusion. Use the molar masses of NH3 and HCl to calculate the predicted ratio of their molecules' speeds. Vu? NH3 %3D VMHCI VMNH3 V u HCI Check Next (3 of 6)

Now consider whether this relationship holds true for a process more complex than simple gas speed: diffusion. Use the molar masses of NH₃ and HCl to calculate the predicted ratio of their molecules’ speeds.

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Translate Assignments 2023-google meets advisory 0 geometry 0 chem 2 APCSP 4 major notes M. M. Distance Formula C... chem pt Gaseous diffusion of NH3(g and HC1(g) We will analyze the results of this experiment starting with the fact that the average kinetic energy of any sample is proportional to its temperature. In this experiment the two gases are at the same temperature and therefore have the same kinetic energy. Therefore, in this experiment, KENH3=KEHCI The root-mean-square speed of a gas can be related to the molar mass of the gas and its temperature. 3RT where is the root-mean-square speed of a gas and M is its molar mass. Considering the relationship between molar mass and the root-mean-square speed, which of these gases should have molecules that move more rapidly? NH3 O HCI Recheck Next (1 of 6) Previous Next Submit Answer Try Another Version 5 item attempts remaining Email Instructor Save Cengage Learning | Cengage Technical Support

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assighment-take Maps Translate Assignments 2023-google meets advisory geometry AРCSP chem 2 major notes M Distance Formula C... M. Dchem p Gaseous diffusion of NH-(g) and HC1(g) Now consider whether this relationship holds true for a process more complex than simple gas speed: diffusion. Use the molar masses of NH3 and HCl to calculate the predicted ratio of their molecules" speeds. VUNH3 HCI VMNH3 VUHCI Check Noxt Next (3 of 6) Previous Eitan n A 4harl書一 主事 Email Instructor Cengage Learning | Cengage Technical Support :ツ K.