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Kinetic Theory of Gases Part II

Kinetic Theory of Gases Part II. The ideal Gas Pressure. If an ideal gas rests in a closed container, then the gas will exert pressure on the container wall because the gas particles are continously moving and colliding the container wall.

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Kinetic Theory of Gases Part II

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  1. Kinetic Theory of Gases Part II The ideal Gas Pressure visite my blog : ichwan.co.nr for your summeries and tasks

  2. If an ideal gas rests in a closed container, then the gas will exert pressure on the container wall because the gas particles are continously moving and colliding the container wall. Suppose the length of container side is l, the mass of particle is m, the velocity of particle in the direction of x-axis, y-axis, and z-axis are vx, vy, and vz. Respevtively, the pressed area is A, the pressure force is F and the pressure against the wall is p Obserb the direction of the particle motion in the direction of x-axis : Z vz A X vx vy Y l visite my blog : ichwan.co.nr for your summeries and tasks

  3. Every time the particle collides the wall, then it will give its momentum that is equal to 2 mvx to the right wall. The change of momentum on the particle is Dp = I = F . Dt , so : I = -mvx – mvx F.Dt = -2mvx Because F = p.A, where p = pressure, then : B A -vx vx m m l The time required by the particle to collide the wall B and return to its original position (A) is determining by the following equation : visite my blog : ichwan.co.nr for your summeries and tasks

  4. Because of the velocity of the gas particle to all direction is assumed to the same vx = vy = vz , then : For N particles of ideal gas, then we obtain the following equation : However, because we observe in x-axis direction, we use : Where : N : number of gas particles m : mass of gas particles v : velocity of gas particles V : volume of container S.A So the equation pV = mvx2 become : visite my blog : ichwan.co.nr for your summeries and tasks

  5. Presure and Kinetic Energy Average Kinetic energy : If this equation is subtitude into the previous equation, that is : This equation express the relationship between gas pressure and average kinetic energy of gas particles. The greater the average kinetic energy of gas particle, the greater the pressure on the gas Then will be obtained the equation as follows : visite my blog : ichwan.co.nr for your summeries and tasks

  6. Absolute Temperature and Average Kinetic Energy If the gas is heated, then the temperature of the gas will increase, This increase of temperature causes the speed of gas particle motion to increase, so that the average kinetic energy of the gas particle will also increase, The amount of average kinetic energy of the gas particle can be obtained from the following equation ; So that obtained the following equation : This equation expresses that the average kinetic energy of gas particle is only influenced by its absolute temperature It should be note that the equation above only holds for monoatomic gases Enter the value of p into the equation : visite my blog : ichwan.co.nr for your summeries and tasks

  7. The Velocity of Gas The velocity of gas particles in container is not all the same, Because of that, the concept of effective velocity of gas particles is needed. Suppose a closed container contains are a number of N gas particles, each particle moves at a certain velocity. N1 particle moves at velocity of v1, N2 particle moves velocity of v2 and so on, Then the average (mean) velocity square v2, can be expressed as follow : The effective velocity of gas is defined as the root mean square of gas velocity, and it is determined as follow : visite my blog : ichwan.co.nr for your summeries and tasks

  8. Hence, the average kinetic energy of gas particle can be expressed using the effective velocity of gas particle as follows : Another expression for effective velocity : By subtituting that value into the Then obtained the following equation : p = gas pressure (Pa) r = density of gas (kg/3) visite my blog : ichwan.co.nr for your summeries and tasks

  9. Student Activity #1 • A closed vessel contains 20 L oxygen gas. If the gas is at temperature of 27oC and atmospheric pressure of 1 atm (1atm = 105Pa) determine the number of moles of the oxygen gas in the vessel. Back visite my blog : ichwan.co.nr for your summeries and tasks

  10. Student Activity #2 • How many molecules are there in 6 grams of hydrogen gas ? visite my blog : ichwan.co.nr for your summeries and tasks

  11. Student Activity #3 • A container of hydrogen of volume 0.1 m3 and temperature 25oC contains 3.20 x 1023 molecules. What is the pressure of the container ? visite my blog : ichwan.co.nr for your summeries and tasks

  12. Student Activity #4 • One mole of gas occupies 100 dm3 volume, its temperature at the moment is 127oC Determine the pressure of the gas visite my blog : ichwan.co.nr for your summeries and tasks

  13. Student Activity #5 • The kinetic energy of 2 moles of monoatomic gas in a 10 liter tube is 2.3 x 10-23 joule. What is the pressure of the gas in the tube ? visite my blog : ichwan.co.nr for your summeries and tasks

  14. Student Activity #6 • Determine the average kinetic energy of 5 moles of neon gas which its volume is 25 liters and its pressure of 100 kPa visite my blog : ichwan.co.nr for your summeries and tasks

  15. Student Activity #7 • If the kinetic energy of gas molecules become twice of the kinetic energy of the gas molecules at 127oC, what is the gas temperature now ? visite my blog : ichwan.co.nr for your summeries and tasks

  16. Student Activity #8 • The speed of 20 particles are distributed as follows : Determine the rms speed ! Speed m/s 1.0 2.0 3.0 4.0 5.0 6.0 No. of molecules 1 3 4 5 2 5 visite my blog : ichwan.co.nr for your summeries and tasks

  17. Student Activity #9 • What is the temperature at which the rms speed of oxygen molecules is twice as great as their rms speed at 300oK visite my blog : ichwan.co.nr for your summeries and tasks

  18. Student Activity #10 • Determine the effective velocity of gas particles at normal state, if the gas density is 10 kg/m3 and its pressure is 3 x 105 N/m2 visite my blog : ichwan.co.nr for your summeries and tasks

  19. Student Activity #11 • A tank of 2.4 m3 in volume is filled with 2 kg gas. The pressure tank is 1.3 atm. What is the effective velocity of the gas molecules ? visite my blog : ichwan.co.nr for your summeries and tasks

  20. Student Activity #12 • The pressure of a gas in a closed tube decreases 81% from the initial pressure. Does this change the speed of the gas particles ? visite my blog : ichwan.co.nr for your summeries and tasks

  21. Internal Energy In a closed container, an ideal gas only has kinetic energy. The total kinetic energy of the gas particles in the container is called the internal energy. For diatomic gasses such H2, O2, and N2. at low temperature + 300 K holds : At medium temperature + 500 K holds : The equation of the internal energy above is valid for monoatomic gases, for example : He, Ne and Ar At high temperature + 1000K : visite my blog : ichwan.co.nr for your summeries and tasks

  22. Student Activity • A container with temperature of 67oC and pressure of 1.2 x 105 Pa contains 2 g helium gas with molecule mass being of 4g/mole. Calculate the internal energy of the gas visite my blog : ichwan.co.nr for your summeries and tasks

  23. Student Activity • Determine the internal energy of one mole of gas at temperature of -37oC ( k =1.38 x 10-23 J/K, No = 6.02 x 1023 molecules/moles) visite my blog : ichwan.co.nr for your summeries and tasks

  24. Student Activity • What is the internal energy of 2 grams of neon gas (Ne) at temperature of 27oC (known that neon gas has M = 10 g/mole) visite my blog : ichwan.co.nr for your summeries and tasks

  25. Thanks for your attention visite my blog : ichwan.co.nr for your summeries and tasks

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