Lecture

Resistive Sensors: Temperature Sensors

Related lectures (32)

Explores fluid dynamics, pressure distributions, thermal conduction, and heat transport in building physics.

Heat Exchangers: Fundamentals and Applications

Explores the fundamentals of heat exchangers, including conduction, convection, and temperature profiles, with practical examples.

Microscopic Heat Transport: Modes and Laws

Explores microscopic heat transport modes and laws, including Fourier's law and Newton's law, highlighting thermal conductivity principles.

Heat Transfer in Falling Ring Simulation

Explores heat transfer in a falling ring simulation, emphasizing thermal conduction and exchange with the surrounding liquid.

Thermal Bridges in Building Technology

Explores the physics of thermal bridges and heat transfer in building elements, emphasizing energy efficiency.

Thermal Transfer and Efficiency in Cycles

Discusses thermal transfer, efficiency in cycles, Carnot cycle, heat pumps, Stirling engine, and ideal gases.

Thermal Resistances & Bi Number

Covers thermal resistances, Bi number, and thermal circuits, including conductive heat transfer and heat diffusion equations.

Heat Conduction: Equations and Methods

Covers the equations and methods used to describe heat transfers in a similar way to the analysis of diffusion.

Thermal Circuits: Overall Heat Transfer Coefficient

Explores thermal circuits and the overall heat transfer coefficient in the context of heat conduction.

Heat Transfer Applications

Explores the applications of the Fourier equation in heat transfer phenomena.

Transient Heat Diffusion: Lumped Capacitance Model

Introduces the lumped capacitance model for solving transient heat conduction under convective cooling, emphasizing the importance of the Biot number.

Building Physics: Thermal Insulation and Heat Balance

Explores thermal insulation, heat balance, and energy efficiency in building envelopes.

Modeling Heat Transfer in Falling Rings

Explores modeling heat transfer between falling rings and liquids, focusing on temperature changes and thermal conduction.

Heat Transfer in Engineering Systems

Explores heat transfer in engineering systems, covering energy balance, radiation exchange, and convection coefficients.

Thermal Effects: Conduction, Convection, and Radiative Heat Transfer

Explores thermal effects, including conduction, convection, and radiation, emphasizing the impact of thin films and nanowires on thermal conductivity reduction.

Fin Performance: Efficiency & Resistance

Explores fin efficiency, resistance, and performance in heat transfer systems.

Thermal Conductive Transfer

Explores thermal conduction, Fourier's law, thermal resistance, local equilibrium, and conductive-convective phenomena.

Thermal Conduction: Basics

Covers the basics of thermal conduction, including the Fourier equation and heat transfer regimes.

Heat Diffusion with Heat Sources

Explores heat diffusion in 1D steady-state conduction with heat sources and discusses thermal resistance and Kirchhoff's laws.

Conduction of Heat

Explores heat propagation through conduction, convection, and radiation, including practical applications and material properties.