Chapter 6: Problem 13
Define molar volume and list its value for a gas at STP.
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Two identical balloons are filled to the same volume, one with air and one with helium. The next day, the volume of the airfilled balloon has decreased by \(5.0 \% .\) By what percent has the volume of the helium-filled balloon decreased? (Assume that the air is four-fifths nitrogen and one-fifth oxygen and that the temperature did not change.)
The pressure on top of Mount Everest ( \(29,029 \mathrm{ft}\) ) averages about \(235 \mathrm{mmHg}\). Convert this pressure to each indicated unit. a. torr b. psi c. in Hg d. atm
We separate U- 235 from U- 238 by fluorinating a sample of uranium to form UF \(_{6}\) (which is a gas) and then taking advantage of the different rates of effusion and diffusion for compounds containing the two isotopes. Calculate the ratio of effusion rates for \({ }^{238} \mathrm{UF}_{6}\) and \({ }^{235} \mathrm{UF}_{6} .\) The atomic mass of \(\mathrm{U}-235\) is \(235.054 \mathrm{amu}\) and that of U-238 is 238.051 amu.
How is the kinetic energy of a gas related to temperature? How is the root mean square velocity of a gas related to its molar mass?
Lithium reacts with nitrogen gas according to the reaction: $$ 6 \mathrm{Li}(s)+\mathrm{N}_{2}(g) \longrightarrow 2 \mathrm{Li}_{3} \mathrm{~N}(s) $$ What mass of lithium (in g) reacts completely with \(58.5 \mathrm{~mL}\) of \(\mathrm{N}_{2}\) gas at \(\mathrm{STP} ?\)
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