Question: The relationship between temperature and volume of a gas is linear and given by Charl's law V (ml) = Constant × T (°C) T(°C) -23 -13 -3 7 17 27 37 47 57 67 77 V (ml) 8.41525 8.75186 9.08847 9.42508 9.76169 10.09830 10.43491 10.77152 11.10813 11.44474 11.78135 Calculate the temperature (°C) at which the volume of the gas become close to zero.
Question: The relationship between temperature and volume of a gas is linear and given by Charl's law V (ml) = Constant × T (°C) T(°C) -23 -13 -3 7 17 27 37 47 57 67 77 V (ml) 8.41525 8.75186 9.08847 9.42508 9.76169 10.09830 10.43491 10.77152 11.10813 11.44474 11.78135 Calculate the temperature (°C) at which the volume of the gas become close to zero.
Introductory Chemistry: A Foundation
9th Edition
ISBN:9781337399425
Author:Steven S. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Donald J. DeCoste
Chapter15: Solutions
Section: Chapter Questions
Problem 7CR
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![Question: The relationship between temperature and volume of a gas is linear and
given by Charl's law
V (ml) = Constant x T (°C)
T (°C) V (ml)
-23
8.41525
-13
8.75186
9.08847
9.42508
9.76169
-3
7
17
a. -250 C
b. -290 C
c. -270 C
d. -273 C
27
37
47
57
67
77
10.09830
10.43491
10.77152
11.10813
11.44474
11.78135
Calculate the temperature (°C) at which the volume of the gas become close to zero.
Hints:
1. The temperature of the gas at which the volume is close to zero is obtained by
extrapolation of the best fit straight line to the V≈ 0.
2.
The extrapolation in Excel is carried out by: Right click on the straight line
→From the dropdown menu select Format Trend line → Forecast → backward
→Type 250 in the blank field.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F0f6b5413-9dcd-4d76-b519-6487edacfd44%2Ff4502a79-946f-4c09-ab6f-897474618c43%2Fjo9p3f_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Question: The relationship between temperature and volume of a gas is linear and
given by Charl's law
V (ml) = Constant x T (°C)
T (°C) V (ml)
-23
8.41525
-13
8.75186
9.08847
9.42508
9.76169
-3
7
17
a. -250 C
b. -290 C
c. -270 C
d. -273 C
27
37
47
57
67
77
10.09830
10.43491
10.77152
11.10813
11.44474
11.78135
Calculate the temperature (°C) at which the volume of the gas become close to zero.
Hints:
1. The temperature of the gas at which the volume is close to zero is obtained by
extrapolation of the best fit straight line to the V≈ 0.
2.
The extrapolation in Excel is carried out by: Right click on the straight line
→From the dropdown menu select Format Trend line → Forecast → backward
→Type 250 in the blank field.
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