Chapter 19: Q73P (page 581)
At what frequency do molecules (diameter ) collide in (an ideal) oxygen gas ( ) at temperature and pressure ?
Short Answer
Frequency at which molecules collide in oxygen gas at and pressure is .
Chapter 19: Q73P (page 581)
At what frequency do molecules (diameter ) collide in (an ideal) oxygen gas ( ) at temperature and pressure ?
Frequency at which molecules collide in oxygen gas at and pressure is .
All the tools & learning materials you need for study success - in one app.
Get started for freeA sample of ideal gas expands from an initial pressure and volume of 32atmandto a final volume of. The initial temperature is. If the gas is monatomic and the expansion isothermal, what are the (a) final pressure, (b) final temperature, and (c) work W done by the gas? If the gas is monatomic and the expansion adiabatic, what are (d), (e), and (f) W? If the gas is diatomic and the expansion adiabatic, what are (g), (h), and (i) W?
Suppose 12.0gof oxygen (O2) gas is heated at constant atmospheric pressure fromto.
The atmospheric density at an altitude of is about .
Question: The speed of sound in different gases at a certain temperature T depends on the molar mass of the gases. Show that whereis the speed of sound in a gas of molar mass M1and v2is the speed of sound in a gas of molar mass M2.(Hint: See Problem 91.)
In an interstellar gas cloud at,the pressure is. Assuming that the molecular diameters of the gases in the cloud are all, what is their mean free path?
What do you think about this solution?
We value your feedback to improve our textbook solutions.