2 3 4 5 17 18 19 20 21 Event Number Gate 1 1 2 3 4 5 6 7 Latest Pressure (atm) 1.1279 1.1061 1.0819 1.0600 1.0426 1.0242 1.0125 Temperature (PC) Pressure 0.9808 atm Temperature 16.9 °C 32.8 28.0 23.6 20.2 16.9 13.2 10.0 Pressure (atm) 1.10- 1.05- 10 Exploring the Properties of Gases (Part II) Na Linear Fit for Latest Pressure Pres mx+b m (Slope): 0.005243 atm/C b (Y-Intercept) 0,9566 atm Correlation 09982 RMSE 0.002828 atm 15 20 Temperature ("C) 25 30 #Not Respondingl 90D 3:42

I need help calculating the ideal gas constant from the graph attached.

 

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**Exploring the Properties of Gases (Part II)** This educational exercise involves the exploration of gas properties, focusing on the relationship between pressure and temperature. The data is collected in a table and displayed on a graph. ### Data Table - Comprised of three columns: Event Number, Latest Pressure (atm), and Temperature (°C). - Measurements: - Event 1: Pressure = 1.1279 atm, Temperature = 32.8°C - Event 2: Pressure = 1.1061 atm, Temperature = 30.5°C - Event 3: Pressure = 1.0819 atm, Temperature = 23.6°C - Event 4: Pressure = 1.0600 atm, Temperature = 20.2°C - Event 5: Pressure = 1.0426 atm, Temperature = 13.2°C - Event 6: Pressure = 1.0422 atm, Temperature = 13.2°C - Event 7: Pressure = 1.0125 atm, Temperature = 10.0°C ### Graph: Pressure vs. Temperature - The graph plots pressure (atm) on the y-axis against temperature (°C) on the x-axis. - Data points are represented with red dots and show a positive correlation between temperature and pressure. - A linear fit line is included: - Equation: y = 0.0017x + 0.9566 - Slope (m): 0.0017 atm/°C - Y-intercept (b): 0.9566 atm - Correlation coefficient (r): 0.996 - RMSE: 0.0028 ### Current Readings - **Pressure:** 0.9808 atm - **Temperature:** 16.9°C This experiment demonstrates the direct proportionality between temperature and pressure, consistent with the ideal gas law principle.