Useful conversion factors and equations: P,V1_ P2V2 T2 L· atm mass PV = nRT n = 0.0821 density (d) T1 тol K volume 1 atm = 760 torr = 760 mmHg = 101,325 Pa = 101.325 kPa = 1.01325 bar (all exact) %3D K = °C – 273.15 °C = K – 273.15 I. The Ideal Gas Law Aga -- gas temp 2. An experiment requires 3.5 mol of chlorine gas. What volume (in mL) would this amount of chlorine gas occupy if the pressure is 4.00 atm and the temperature is 34 °C? 3. The maximum gas pressure that a 4.00L experimental container can maintain without rupturing is 3.50 atm. If the container is filled with 0.410 mol of an ideal gas, what is the maximum temperature (in °C) the vessel can endure before rupturing?

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Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
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Chapter1: Chemical Foundations
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Useful conversion factors and equations:
学-等
P2V2
T2
L·atm
тass
PV = nRT
n = 0.0821
density (d)
T1
mol · K
volume
1 atm = 760 torr = 760 mmHg = 101,325 Pa
= 101.325 kPa = 1.01325 bar (all exact)
К 3 °С — 273.15
°С %3D К — 273.15
I.
The Ideal Gas Law
gastempe
2. An experiment requires 3.5 mol of chlorine gas. What volume (in mL) would this amount of
chlorine gas occupy if the pressure is 4.00 atm and the temperature is 34 °C?
3. The maximum gas pressure that a 4.00 L experimental container can maintain without rupturing is
3.50 atm. If the container is filled with 0.410 mol of an ideal gas, what is the maximum
temperature (in °C) the vessel can endure before rupturing?
Transcribed Image Text:Useful conversion factors and equations: 学-等 P2V2 T2 L·atm тass PV = nRT n = 0.0821 density (d) T1 mol · K volume 1 atm = 760 torr = 760 mmHg = 101,325 Pa = 101.325 kPa = 1.01325 bar (all exact) К 3 °С — 273.15 °С %3D К — 273.15 I. The Ideal Gas Law gastempe 2. An experiment requires 3.5 mol of chlorine gas. What volume (in mL) would this amount of chlorine gas occupy if the pressure is 4.00 atm and the temperature is 34 °C? 3. The maximum gas pressure that a 4.00 L experimental container can maintain without rupturing is 3.50 atm. If the container is filled with 0.410 mol of an ideal gas, what is the maximum temperature (in °C) the vessel can endure before rupturing?
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