Exercise 2. Relationship between P and T when n and V are constant.Complete the data table (temperature and pressure) below for 0.20 g of helium (0.050 mol)at a constant volume of 1.12 L. Plot the pressure in atmospheres on the ordinate (range 0 atm to1.50 atm), and Celsius temperature (range -100°C to +100°C) on the abscissa. Extrapolate the lineconnecting the points to zero pressure, and note where it intersects the temperature axis.TemperaturePressureP/Tlb/in2)(atm).(atm/K)100.019.930.016.214.6-79.010.4Now, calculate the P/T ratio (this is the proportionality constant, k), for each temperature andpressure value and fill in the column in the table. Complete the statements below:Statements:1. The name of the curve you graphed is2. The mathematical expression relating P and T is,3. The temperature at which the line intersects the temperature axis is,4. The pressure exerted by 0.20 g of He at 200°C would be(Show your calculation in the space below.)981

The P vs T plot is as follows. We know, Temperature in degrees celcius+273= absolute temperature…

Exercise 2. Relationship between P and T when n and V are constant. Complete the data table (temperature and pressure) below for 0.20 g of helium (0.050 mol) at a constant volume of 1.12 L. Plot the pressure in atmospheres on the ordinate (range 0 atm to 1.50 atm), and Celsius temperature (range -100°C to +100°C) on the abscissa. Extrapolate the line connecting the points to zero pressure, and note where it intersects the temperature axis. Temperature Pressure P/T (°C) (K) lb/in2) (atm) (atm/K) 100.0 19.9 30.0 16.2 0.0 14.6 -79.0 10.4 Now, calculate the P/T ratio (this is the proportionality constant, k), for each temperature and pressure value and fill in the column in the table. Complete the statements below: Statements: 1. The name of the curve you graphed is 2. The mathematical expression relating P and T is 3. The temperature at which the line intersects the temperature axis is 4. The pressure exerted by 0.20 g of He at 200°C would be (Show your calculation in the space below.)

Exercise 2. Relationship between P and T when n and V are constant. Complete the data table (temperature and pressure) below for 0.20 g of helium (0.050 mol) at a constant volume of 1.12 L. Plot the pressure in atmospheres on the ordinate (range 0 atm to 1.50 atm), and Celsius temperature (range -100°C to +100°C) on the abscissa. Extrapolate the line connecting the points to zero pressure, and note where it intersects the temperature axis. Temperature Pressure P/T (°C) (K) lb/in2) (atm) (atm/K) 100.0 19.9 30.0 16.2 0.0 14.6 -79.0 10.4 Now, calculate the P/T ratio (this is the proportionality constant, k), for each temperature and pressure value and fill in the column in the table. Complete the statements below: Statements: 1. The name of the curve you graphed is 2. The mathematical expression relating P and T is 3. The temperature at which the line intersects the temperature axis is 4. The pressure exerted by 0.20 g of He at 200°C would be (Show your calculation in the space below.)

General Chemistry - Standalone book (MindTap Course List)

11th Edition

ISBN:9781305580343

Author:Steven D. Gammon, Ebbing, Darrell Ebbing, Steven D., Darrell; Gammon, Darrell Ebbing; Steven D. Gammon, Darrell D.; Gammon, Ebbing; Steven D. Gammon; Darrell

Publisher:Steven D. Gammon, Ebbing, Darrell Ebbing, Steven D., Darrell; Gammon, Darrell Ebbing; Steven D. Gammon, Darrell D.; Gammon, Ebbing; Steven D. Gammon; Darrell

Chapter5: The Gaseous State

Section5.6: Kinetic Theory Of An Ideal Gas

Problem 5.5CC

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