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  • Kinetic-Molecular Theory
    https://chem.libretexts.org/Bookshelves/General_Chemistry/General_Chemistry_Supplement_(Eames)/Gases/Kinetic-Molecular_Theory
    Combining these, the number of collisions increases by s 3 when the volume decreases by 1/s 3 . The pressure is the number of impacts multiplied by the momentum of the particles, mv, where m is the ma...Combining these, the number of collisions increases by s 3 when the volume decreases by 1/s 3 . The pressure is the number of impacts multiplied by the momentum of the particles, mv, where m is the mass of a particle and v is the average velocity. When you calculate the average momentum change from each collision and the average number of collisions per area of wall, the result is P = nmv 2 /3V, where n is the number of particles and V is the volume.
  • 14.2: Factors Affecting Gas Pressure
    https://chem.libretexts.org/Bookshelves/Introductory_Chemistry/Introductory_Chemistry_(CK-12)/14%3A_The_Behavior_of_Gases/14.02%3A_Factors_Affecting_Gas_Pressure
    This page discusses how basketball pressure influences bounce height and is adjusted with a hand pump. It outlines the four factors affecting gas pressure: amount of gas, volume, temperature, and gas ...This page discusses how basketball pressure influences bounce height and is adjusted with a hand pump. It outlines the four factors affecting gas pressure: amount of gas, volume, temperature, and gas particle behavior. Increasing gas in a rigid container raises pressure, as does reducing volume or increasing temperature. Conversely, reducing gas, increasing volume, or lowering temperature decreases pressure. The summary emphasizes that these factors directly impact gas behavior and pressure.
  • 13.5: Average Kinetic Energy and Temperature
    https://chem.libretexts.org/Bookshelves/Introductory_Chemistry/Introductory_Chemistry_(CK-12)/13%3A_States_of_Matter/13.05%3A_Average_Kinetic_Energy_and_Temperature
    This page explains kinetic energy as the energy of motion, illustrated through baseball actions like pitching and swinging. It connects temperature to the average kinetic energy of particles, noting t...This page explains kinetic energy as the energy of motion, illustrated through baseball actions like pitching and swinging. It connects temperature to the average kinetic energy of particles, noting that as temperature rises, kinetic energy variability increases. Absolute zero, where particle motion stops, is discussed along with its practical inaccessibility.
  • 14.11: Real and Ideal Gases
    https://chem.libretexts.org/Bookshelves/Introductory_Chemistry/Introductory_Chemistry_(CK-12)/14%3A_The_Behavior_of_Gases/14.11%3A_Real_and_Ideal_Gases
    This page discusses how molecular structure affects behavior, exemplified by ethanol and dimethylether's differing boiling points due to intermolecular interactions. It also covers the ideal gas law, ...This page discusses how molecular structure affects behavior, exemplified by ethanol and dimethylether's differing boiling points due to intermolecular interactions. It also covers the ideal gas law, noting that real gases deviate from ideal behavior at high pressures and low temperatures, with lighter gases like helium being more ideal than those with stronger intermolecular forces.

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