00 %24 w/ Charles' Law Change the simulation to "Charles' Law" by clicking the tab at the top of the screen it will be shown in white. You should see the picture below on your screen. 1. Which one of the three variables: Pressure, Volume or Temperature cannot be changed in Charles' Law? This varlable is considered a constant. 1. a. Using the Temperature controls, increase the temperature of the gas. What changes do you observe in the behavlor of the particles of the gas while the temperature is increased? b. Continue to increase the temperature value until T, = 44K. Using the equation for Charles' law, calculate the volume of the gas at this increased temperature. Check your final answer for part b by clicking the calculate button next to V2: c. Based on the final value calculated in part b) is Charles' law considered a direct or an indirect relationship between the variables? Explain your cholce with reasoning. 1. 2. Press the reset button at the top right of the screen. Using the volume control arrows, reduce the volume of the gas to 1.86L. a. In the space below record yourobservations regarding the behavior of the particles in the gas sample as the volumeis reduced. b. In the space below calculate the new temperaturevalue for the gas. C. Check your final answer for part b byclicking the calculate button next toT2. 1. V %23 2 4. 6. 9- 7.

Biochemistry
9th Edition
ISBN:9781319114671
Author:Lubert Stryer, Jeremy M. Berg, John L. Tymoczko, Gregory J. Gatto Jr.
Publisher:Lubert Stryer, Jeremy M. Berg, John L. Tymoczko, Gregory J. Gatto Jr.
Chapter1: Biochemistry: An Evolving Science
Section: Chapter Questions
Problem 1P
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Related questions
Question
00
%24
w/
Charles' Law
Change the simulation to "Charles' Law" by clicking the tab at the top of the screen it will be shown in white. You should see
the picture below on your screen.
1. Which one of the three variables: Pressure, Volume or Temperature cannot be changed in Charles' Law? This varlable
is considered a constant.
1. a. Using the Temperature controls, increase the temperature of the gas. What changes do you observe in the behavlor
of the particles of the gas while the temperature is increased?
b. Continue to increase the temperature value until T, = 44K. Using the equation for Charles' law, calculate the volume of
the gas at this increased temperature. Check your final answer for part b by clicking the calculate button next to V2:
c. Based on the final value calculated in part b) is Charles' law considered a direct or an indirect relationship between the
variables? Explain your cholce with reasoning.
1.
2. Press the reset button at the top right of the screen.
Using the volume control arrows, reduce the volume of the gas to 1.86L.
a. In the space below record yourobservations regarding the behavior of the particles in the gas sample as the
volumeis reduced.
b. In the space below calculate the new temperaturevalue for the gas.
C. Check your final answer for part b byclicking the calculate button next toT2.
1.
V
%23
2
4.
6.
9-
7.
Transcribed Image Text:00 %24 w/ Charles' Law Change the simulation to "Charles' Law" by clicking the tab at the top of the screen it will be shown in white. You should see the picture below on your screen. 1. Which one of the three variables: Pressure, Volume or Temperature cannot be changed in Charles' Law? This varlable is considered a constant. 1. a. Using the Temperature controls, increase the temperature of the gas. What changes do you observe in the behavlor of the particles of the gas while the temperature is increased? b. Continue to increase the temperature value until T, = 44K. Using the equation for Charles' law, calculate the volume of the gas at this increased temperature. Check your final answer for part b by clicking the calculate button next to V2: c. Based on the final value calculated in part b) is Charles' law considered a direct or an indirect relationship between the variables? Explain your cholce with reasoning. 1. 2. Press the reset button at the top right of the screen. Using the volume control arrows, reduce the volume of the gas to 1.86L. a. In the space below record yourobservations regarding the behavior of the particles in the gas sample as the volumeis reduced. b. In the space below calculate the new temperaturevalue for the gas. C. Check your final answer for part b byclicking the calculate button next toT2. 1. V %23 2 4. 6. 9- 7.
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