Lectures related to Standard temperature and pressure

Explores the definition of temperature, the history of thermometers, and the wide range of modern temperature measurement devices.

Covers the basics of Partial Differential Equations, focusing on heat transfer modeling and numerical solution methods.

Explains the principles of a rotary evaporator and the boiling points of solvents.

Covers atomic structure, thermodynamics, material properties, and ideal gas law.

Explores ideal gas behavior, temperature, pressure, and kinetic energy relationships, and the principle of thermodynamics.

Covers the analysis of thermodynamic processes involving bromine vapor and energy balances.

Showcases the design of a controlled atmosphere chamber for microscope observations.

Explains the use of a rotary evaporator to separate solvents from a product.

Delves into gas dynamics, exploring momentum changes during collisions and the principles of temperature and kinetic energy.

Covers the concept of moments of the distribution function in plasma physics and their relation to fluid dynamics.

Discusses collision density computation and vapor pressure measurement using the Knudsen method.

Explores the experiments of Boyle-Mariotte, Charles, and Gay-Lussac, the ideal gas law, Avogadro's hypothesis, and the behavior of ideal gases.

Covers the ideal gas model, assumptions, ideal gas law, Avogadro's number, and macroscopic gas effects.

Discusses the Carnot cycle, thermodynamic temperature, and the efficiency of thermal machines, including real and ideal models.

Explores thermodynamic transformations, internal energy, kinetic gas theory, and temperature measurement methods.

Covers chemical potential variations and thermodynamic functions in mixtures, emphasizing their implications in real and ideal gases.

Covers the continuity equation for steady laminar flow and Newton's 2nd law.