A gas at constant volume has a pressure of 3.20 atm at 300. k. what will be the pressure of the gas at 290. k?
A Gas At Constant Volume Has A Pressure Of 3.20 Atm At 300. K. What Will Be The Pressure Of The Gas At 290. K?
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A Gas At Constant Volume Has A Pressure Of 3.20 Atm At 300. K. What Will Be The Pressure Of The Gas At 290. K?. Using the ideal gas law, p1/t1 = p2/t2, where p1 is the initial pressure (3.20 atm), t1 is the initial temperature. Learn how to use the ideal gas law to calculate the pressure of a gas at constant volume and temperature.
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This can be expressed as p₁/t₁ = p₂/t₂. Using the ideal gas law, p1/t1 = p2/t2, where p1 is the initial pressure (3.20 atm), t1 is the initial temperature. A gas at constant volume has a pressure of 3.20 atm at 300.
The Pressure Of A Gas At Constant Volume Is Proportional To Its Temperature.
A gas at constant volume has a pressure of 3.20 atm at 300. Where p is the pressure (atm), v is the volume (l), n is the number of moles, r is the general gas constant (8.314 l.atm/mol.k), t is the temperature in kelvin at constant. Initial pressure, p1 = 3.20 atm initial temperature, t1 = 300 k final temperature, t2 = 290 k using the formula for the relationship between pressure and temperature for a gas at.
This Can Be Expressed As P₁/T₁ = P₂/T₂.
Use the ideal gas law calculator to find the pressure, volume, and temperature of a gas. Learn how to use the ideal gas law to calculate the pressure of a gas at constant volume and temperature. Using the ideal gas law, p1/t1 = p2/t2, where p1 is the initial pressure (3.20 atm), t1 is the initial temperature.
