The volume V of an ideal gas varies directly with the temperature T and inversely with the pressure P. A cylinder contains oxygen at a temperature of 310 degrees K and a pressure of 18 atmospheres in a volume of 120 liters. Find the pressure if the volume is decreased to 95 liters and the temperature is increased to 320 degrees K. Round your answer to two decimal places. The pressure is Number atmospheres.

Advanced Engineering Mathematics
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ISBN:9780470458365
Author:Erwin Kreyszig
Publisher:Erwin Kreyszig
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**Ideal Gas Law Problem**

The volume \( V \) of an ideal gas varies directly with the temperature \( T \) and inversely with the pressure \( P \). 

A cylinder contains oxygen at a temperature of 310 degrees \( K \) and a pressure of 18 atmospheres in a volume of 120 liters. 

Find the pressure if the volume is decreased to 95 liters and the temperature is increased to 320 degrees \( K \).

**Round your answer to two decimal places.**

The pressure is [\(\text{Number}\)] atmospheres.
Transcribed Image Text:**Ideal Gas Law Problem** The volume \( V \) of an ideal gas varies directly with the temperature \( T \) and inversely with the pressure \( P \). A cylinder contains oxygen at a temperature of 310 degrees \( K \) and a pressure of 18 atmospheres in a volume of 120 liters. Find the pressure if the volume is decreased to 95 liters and the temperature is increased to 320 degrees \( K \). **Round your answer to two decimal places.** The pressure is [\(\text{Number}\)] atmospheres.
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