An atom of xenon has a radius Ixe = 108. pm and an average speed in the gas phase at 25°C of 137.m/s. Suppose the speed of a xenon atom at 25°C has been measured to within 1.0%. Calculate the smallest possible length of box inside of which the atom could be known to be located with certainty. Write your answer as a multiple of Ixe and round it to 2 significant figures. For example, if the smallest box the atom could be in turns out to be 42.0 times the radius of an atom of xenon, you would enter "42.rxe" as your answer.

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An atom of xenon has a radius Ixe 108. pm and an average speed in the gas phase at 25°C of 137.m/s.
Suppose the speed of a xenon atom at 25°C has been measured to within 1.0%. Calculate the smallest possible length of box inside of
which the atom could be known to be located with certainty.
Write your answer as a multiple of Ix and round it to 2 significant figures. For example, if the smallest box the atom could be in turns
r
Xe
out to be 42.0 times the radius of an atom of xenon, you would enter "42.1" as your answer.
Xe
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Transcribed Image Text:An atom of xenon has a radius Ixe 108. pm and an average speed in the gas phase at 25°C of 137.m/s. Suppose the speed of a xenon atom at 25°C has been measured to within 1.0%. Calculate the smallest possible length of box inside of which the atom could be known to be located with certainty. Write your answer as a multiple of Ix and round it to 2 significant figures. For example, if the smallest box the atom could be in turns r Xe out to be 42.0 times the radius of an atom of xenon, you would enter "42.1" as your answer. Xe Xe Continue 1 62°F Rain F2 F3 F4 x10 X Q Search 30 F5 S S F6 L 2023 McGraw Hill LLC. All Rights Reserved. Terms of Use | Privacy Center = C 0 M F7 8 F8 DELL) F9 prt sc F10 Submit As home end
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