Solution Found!
Refer to Exercise 8. a. Assume that P = 224.51 ± 0.04 kPa
Chapter 3, Problem 24E(choose chapter or problem)
Refer to Exercise 8.
a. Assume that \(P=224.51\pm0.04\ \mathrm{kPa}\) and \(V=11.237\pm0.002\mathrm{\ L}\). Estimate \(T\), and find the relative uncertainty in the estimate.
b. Assume that \(P=224.51\pm0.04\ \mathrm{kPa}\) and \(T=289.33\pm0.02\mathrm{\ K}\). Estimate \(V\), and find the relative uncertainty in the estimate.
c. Assume that \(V=11.203\pm0.002\mathrm{\ L}\) and \(T=289.33\pm0.02\mathrm{\ K}\). Estimate \(P\), and find the relative uncertainty in the estimate.
Equation Transcription:
Text Transcription:
P = 224.51 pm 0.04 kPa
V = 11.237 pm 0.002 L
T
T =289.33 pm 0.02 K
V
V = 11.203 pm 0.002 L
P
Questions & Answers
QUESTION:
Refer to Exercise 8.
a. Assume that \(P=224.51\pm0.04\ \mathrm{kPa}\) and \(V=11.237\pm0.002\mathrm{\ L}\). Estimate \(T\), and find the relative uncertainty in the estimate.
b. Assume that \(P=224.51\pm0.04\ \mathrm{kPa}\) and \(T=289.33\pm0.02\mathrm{\ K}\). Estimate \(V\), and find the relative uncertainty in the estimate.
c. Assume that \(V=11.203\pm0.002\mathrm{\ L}\) and \(T=289.33\pm0.02\mathrm{\ K}\). Estimate \(P\), and find the relative uncertainty in the estimate.
Equation Transcription:
Text Transcription:
P = 224.51 pm 0.04 kPa
V = 11.237 pm 0.002 L
T
T =289.33 pm 0.02 K
V
V = 11.203 pm 0.002 L
P
ANSWER:Step 1 of 4:
Here we are given with ideal gas equation PV=8.31T where P is the pressure, T is the temperature and V is the volume of one mole of an ideal gas.
Using this equation we have to estimate the required values.