A 100 mL sample of helium exerts a pressure of 1 atm at 10°C - VCE - SSCE Chemistry - Question 14 - 2005 - Paper 1
Question 14
A 100 mL sample of helium exerts a pressure of 1 atm at 10°C. The volume of the container is reduced to 50 mL and then the temperature is increased to 20°C.
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Worked Solution & Example Answer:A 100 mL sample of helium exerts a pressure of 1 atm at 10°C - VCE - SSCE Chemistry - Question 14 - 2005 - Paper 1
Step 1
Use the Ideal Gas Law
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Answer
We start with the Ideal Gas Law, which is given by the formula:
PV=nRT
In our case, we will apply the combined gas law since we're dealing with changes in pressure, volume, and temperature. This can be expressed as:
T1P1V1=T2P2V2
Where:
P1 = initial pressure = 1 atm
V1 = initial volume = 100 mL
T1 = initial temperature in Kelvin = 10°C + 273.15 = 283.15 K
P2 = final pressure (to be calculated)
V2 = final volume = 50 mL
T2 = final temperature in Kelvin = 20°C + 273.15 = 293.15 K
Step 2
Calculate Final Pressure
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Answer
Substituting the known values into the combined gas law, we have:
283.15extK(1atm)(100mL)=293.15extKP2(50mL)
Now, cross-multiplying gives:
P2=(283.15extK)(50mL)(1atm)(100mL)(293.15extK)
Calculating this yields:
P2=50×283.15100×293.15≈2.06atm
Step 3
Select Closest Answer
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Answer
The calculated final pressure is approximately 2.06 atm. The option that is closest to this value from the choices provided is:
