(1) Consider 1 mol of an ideal gas at 300 K and 1 atm pressure. Imagine that the molecules are, for the most part, evenly spaced at the centers of identical cubes. Using Avogadro's constant and taking the diameter of a molecule to be 3 x 10-8 cm, find the length of an edge of such a cube and calculate the ratio of this length to the diameter of a molecule. The edge length is an estimate of the distance between molecules in the gas. (2) Now consider a mole of water having a volume of 18 cm³. Again, imagine the molecules to be evenly spaced at the centers of identical cubes and repeat the calculation in (a).
(1) Consider 1 mol of an ideal gas at 300 K and 1 atm pressure. Imagine that the molecules are, for the most part, evenly spaced at the centers of identical cubes. Using Avogadro's constant and taking the diameter of a molecule to be 3 x 10-8 cm, find the length of an edge of such a cube and calculate the ratio of this length to the diameter of a molecule. The edge length is an estimate of the distance between molecules in the gas. (2) Now consider a mole of water having a volume of 18 cm³. Again, imagine the molecules to be evenly spaced at the centers of identical cubes and repeat the calculation in (a).
Physics for Scientists and Engineers: Foundations and Connections
1st Edition
ISBN:9781133939146
Author:Katz, Debora M.
Publisher:Katz, Debora M.
Chapter19: Temperature, Thermal Expansion And Gas Laws
Section: Chapter Questions
Problem 40PQ: On a hot summer day, the density of air at atmospheric pressure at 35.0C is 1.1455 kg/m3. a. What is...
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![(1) Consider 1 mol of an ideal gas at 300 K and 1 atm pressure. Imagine that the molecules are,
for the most part, evenly spaced at the centers of identical cubes. Using Avogadro's constant
and taking the diameter of a molecule to be 3 x 10-8 cm, find the length of an edge of such
a cube and calculate the ratio of this length to the diameter of a molecule. The edge length
is an estimate of the distance between molecules in the gas.
(2) Now consider a mole of water having a volume of 18 cm³. Again, imagine the molecules to be
evenly spaced at the centers of identical cubes and repeat the calculation in (a).](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F4d409dbe-0069-4bdd-acc1-9391e01545d6%2Fde77e16b-8fb9-487e-85a4-5c34249b6e93%2Fhtgunci_processed.jpeg&w=3840&q=75)
Transcribed Image Text:(1) Consider 1 mol of an ideal gas at 300 K and 1 atm pressure. Imagine that the molecules are,
for the most part, evenly spaced at the centers of identical cubes. Using Avogadro's constant
and taking the diameter of a molecule to be 3 x 10-8 cm, find the length of an edge of such
a cube and calculate the ratio of this length to the diameter of a molecule. The edge length
is an estimate of the distance between molecules in the gas.
(2) Now consider a mole of water having a volume of 18 cm³. Again, imagine the molecules to be
evenly spaced at the centers of identical cubes and repeat the calculation in (a).
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