Data Table 3: Temperature (K) Volume (L) Point 1 298 1.00 Point 2 596 2.00 Point 3 447 1.50 Point 4 745 2.50 Point 5 864 2.90 Based on the data collected, make a statement about the trend that can be observed between the temperature and pressure of a gas. Copy Data Table 3 into Excel. Use Excel to create a graph with Pressure (in atm) on the horizontal axis (the independent variable) and Temperature (in kelvins) on the vertical axis (the dependent variable). Set the scale on each of the axes to show O K and O atm. Draw the best straight line that goes through most of the points and extrapolate (extend) the line until it goes through O atm. Does the graph show that Pis proportional to Tas stated by Amonton's and Gay-Lussac's Law? Absolute zero is O K. What is the temperature reading when the extrapolated line goes through 0 atm? Considering what is now known about Amonton's and Gay-Lussac's Law, make a prediction based on the following situation: What would happen to the pressure of a gas inside a sealed bottle, if the bottle was cooled fo half of its original temperature?

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Chapter1: Chemical Foundations
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Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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Data Table 3:
Temperature (K)
Volume (L)
Point 1
298
1.00
Point 2
596
2.00
Point 3
447
1.50
Point 4
745
2.50
Point 5
864
2.90
Based on the data collected, make a statement about the trend that can be observed between the
temperature and pressure of a gas.
Copy Data Table 3 into Excel.
Use Excel to create a graph with Pressure (in atm) on the horizontal axis (the independent variable) and
Temperature (in kelvins) on the vertical axis (the dependent variable).
Set the scale on each of the axes to show O Kand O atm. Draw the best straight line that goes through
most of the points and extrapolate (extend) the line until it goes through O atm.
Copy and paste the graph at the bottom of this document.
Does the graph show that Pis proportional to Tas stated by Amonton's and Gay-Lussac's Law?
a. Absolute zero is OK. What is the temperature reading when the extrapolated line goes through o
atm?
Considering what is now known about Amonton's and Gay-Lussac's Law, make a prediction based on
the following situation: What would happen to the pressure of a gas inside a sealed bottle, if the bottle
was cooled fo half of its original temperature?
Transcribed Image Text:Data Table 3: Temperature (K) Volume (L) Point 1 298 1.00 Point 2 596 2.00 Point 3 447 1.50 Point 4 745 2.50 Point 5 864 2.90 Based on the data collected, make a statement about the trend that can be observed between the temperature and pressure of a gas. Copy Data Table 3 into Excel. Use Excel to create a graph with Pressure (in atm) on the horizontal axis (the independent variable) and Temperature (in kelvins) on the vertical axis (the dependent variable). Set the scale on each of the axes to show O Kand O atm. Draw the best straight line that goes through most of the points and extrapolate (extend) the line until it goes through O atm. Copy and paste the graph at the bottom of this document. Does the graph show that Pis proportional to Tas stated by Amonton's and Gay-Lussac's Law? a. Absolute zero is OK. What is the temperature reading when the extrapolated line goes through o atm? Considering what is now known about Amonton's and Gay-Lussac's Law, make a prediction based on the following situation: What would happen to the pressure of a gas inside a sealed bottle, if the bottle was cooled fo half of its original temperature?
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