2 S The ideal gas law describes the relationship among the pressure P, volume V, number of moles n., and absolute temperature T of an ideal gas. Here is the relationship expressed mathematically: PV=nRT x H where R is a proportionality constant. The units of R are determined by the units of pressure and volume used in the equation. When atm is used for pressure and L for volume, the appropriate R value is 0.08206 L-atm/mol K. # 3 E D So C $ 4 www FA R F V % 5 H T G ▼ 6 B Part A How many air molecules are in a 15.0 x 12.0 x 10.0 ft room (28.2 L=1 ft³)? Assume atmospheric pressure of 1.00 atm, a room temperature of 20.0°C, and ideal behavior. View Available Hint(s) [15] ΑΣΦ 1 Provide Feedback FA Submit MacBook Air Y H & 7 N 40 FY U J 8 O Dil FO 1 M FEC ( 9 K ? DO FY O < molecules дв > O L F18 command P 1758 > . ; Review I Constants I Periodic Table I 8 FYY { { + option ? 11 I Zom I F12 Next > 1 delete

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2 S W The ideal gas law describes the relationship among the pressure P, volume V, number of moles n, and absolute temperature T of an ideal gas. Here is the relationship expressed mathematically: PV = nRT x H d where R is a proportionality constant. The units of R are determined by the units of pressure and volume used in the equation. When atm is used for pressure and L for volume, the appropriate R value is 0.08206 L-atm/mol K. # 3 E D So C $ 4 R 888 FA F V % 5 T G Y 6 B Part A How many air molecules are in a 15.0 x 12.0 x 10.0 ft room (28.2 L=1 ft³)? Assume atmospheric pressure of 1.00 atm, a room temperature of 20.0 °C, and ideal behavior. View Available Hint(s) Provide Feedback m FA [5] ΑΣΦ 1 Submit MacBook Air Y H & 7 N U J 8 O bil 1 M 9 K ? DO FY O < molecules дв > O L F10 command P 20 . - ; Review I Constants I Periodic Table I m { { [ option + = 11 ? I I 0 w Next > 1 delete