06:45The Average Kinetic Energy per Molecule Equation for an Ideal Gas - IB PhysicsAndy Masley's IB Physics Lectures660views
05:38The Average Kinetic Energy per Molecule Equation for an Ideal Gas - IB PhysicsAndy Masley's IB Physics Lectures886views
06:47How To Calculate The Average Translational Kinetic Energy of Molecules Using Boltzmann's ConstantThe Organic Chemistry Tutor1548views
Multiple ChoiceIn a sample of gas, you pick a particle at random. The mass of the particle is 1.67 × 10-27 kg and you measure its speed to be 1600 m/s. If that particle's kinetic energy is equal to the average kinetic energy of the gas particles, what is the temperature of the sample of gas?457views2rank
Textbook QuestionOxygen (O2) has a molar mass of 32.0 g>mol. What is (a) the average translational kinetic energy of an oxygen molecule at a temperature of 300 K;590views
Textbook QuestionA 6.0 m ✕ 8.0 m ✕ 3.0 m room contains air at 20℃. What is the room's thermal energy?277views
Textbook QuestionThe rms speed of the atoms in a 2.0 g sample of helium gas is 700 m/s. What is the thermal energy of the gas?334views
Textbook QuestionLiquid helium boils at 4.2 K. In a flask, the helium gas above the boiling liquid is at the same temperature. What are (a) the mean free path in the gas, (b) the rms speed of the atoms, and (c) the average energy per atom?310views
Textbook Question1.0 mol of argon has 3100 J of thermal energy. What is the gas temperature in °C?340views
Textbook QuestionThe molecules in a six-particle gas have velocities v₁ = (20î ─ 30ĵ) m/s v₂ = (40î + 70ĵ) m/s v₃ = (─80î + 20ĵ) m/s v₄ = 30î m/s v₅ = (40î ─ 40ĵ) m/s v₆ = (─50î ─ 20ĵ) m/s Calculate (a) →vₐᵥ₉ , (b) vₐᵥ₉, and (c) vᵣₘₛ.385views
Textbook QuestionAt what temperature would the average kinetic energy (Chapter 18) of a molecule of hydrogen gas (H₂) be sufficient to excite a hydrogen atom out of the ground state?113views
Textbook QuestionA rubidium atom (m = 85 u) is at rest with one electron in an excited energy level. When the electron jumps to the ground state, the atom emits a photon of wavelength ⋋ = 780 nm. (b) The recoil speed sets the lower limit on the temperature to which an ideal gas of rubidium atoms can be cooled in a laser-based atom trap. Using the kinetic theory of gases (Chapter 18), estimate this “lowest achievable” temperature.133views