Using the ideal gas equation, calculate the density of radon gas at 8.0 K and 9.0 atm, Give your answer in g/L and do not use scientific notation. Given that the density of solid aluminum is 2700 g/L under the same conditions, you should clearly see that your answer for the density of radon gas is ridiculously unreasonable (i.e. a gas should never be predicted to be more dense than a solid). Discuss below the shortcoming(s) in the ideal gas law and/or kinetic molecular theory that this illustrates by leading us to this unreasonable value. Address both the condition(s) under which gas law / kinetic molecular theory fails to address real behavior, and why it fails under those conditions.
Using the ideal gas equation, calculate the density of radon gas at 8.0 K and 9.0 atm, Give your answer in g/L and do not use scientific notation. Given that the density of solid aluminum is 2700 g/L under the same conditions, you should clearly see that your answer for the density of radon gas is ridiculously unreasonable (i.e. a gas should never be predicted to be more dense than a solid). Discuss below the shortcoming(s) in the ideal gas law and/or kinetic molecular theory that this illustrates by leading us to this unreasonable value. Address both the condition(s) under which gas law / kinetic molecular theory fails to address real behavior, and why it fails under those conditions.
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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Using the ideal gas equation, calculate the density of radon gas at 8.0 K and 9.0 atm, Give your answer in g/L and do not use scientific notation.
Given that the density of solid aluminum is 2700 g/L under the same conditions, you should clearly see that your answer for the density of radon gas is ridiculously unreasonable (i.e. a gas should never be predicted to be more dense than a solid). Discuss below the shortcoming(s) in the
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