thermal agitation

(noun)

The thermal motion of atoms and molecules in any object at a temperature above absolute zero, causing them to emit and absorb radiation.

Related Terms

  • radar
  • terahertz radiation

Examples of thermal agitation in the following topics:

  • Dependence of Resistance on Temperature

    • They become better conductors at higher temperature because increased thermal agitation increases the number of free charges available to carry current.
    • The device is small so it quickly comes into thermal equilibrium with the part of a person it touches.
  • Paramagnetism and Diamagnetism

    • In pure paramagnetism, the dipoles do not interact with each other and are randomly oriented in the absence of an external field due to thermal agitation; this results in a zero net magnetic moment.
    • Unlike ferromagnets, paramagnets do not retain any magnetization in the absence of an externally applied magnetic field, because thermal motion randomizes the spin orientations responsible for magnetism.
  • Microwaves

    • ., they are a component of electromagnetic radiation generated by thermal agitation.
    • The thermal motion of atoms and molecules in any object at a temperature above absolute zero causes them to emit and absorb radiation.
  • Thermal Stresses

    • Solids also undergo thermal expansion.
    • What are the basic properties of thermal expansion?
    • What is the underlying cause of thermal expansion?
    • Thermal stress is created by thermal expansion or contraction.
    • Another example of thermal stress is found in the mouth.
  • The Zeroth Law of Thermodynamics

    • The Zeroth Law of Thermodynamics states that systems in thermal equilibrium are at the same temperature.
    • Systems are in thermal equilibrium if they do not transfer heat, even though they are in a position to do so, based on other factors.
    • If A and C are in thermal equilibrium, and A and B are in thermal equilibrium, then B and C are in thermal equilibrium.
    • Temperature is the quantity that is always the same for all systems in thermal equilibrium with one another.
    • The double arrow represents thermal equilibrium between systems.
  • A Review of the Zeroth Law

    • The Zeroth Law of Thermodynamics states: If two systems, A and B, are in thermal equilibrium with each other, and B is in thermal equilibrium with a third system, C, then A is also in thermal equilibrium with C.
    • Two systems are in thermal equilibrium if they could transfer heat between each other, but don't.
    • Indeed, experiments have shown that if two systems, A and B, are in thermal equilibrium with each other, and B is in thermal equilibrium with a third system C, then A is also in thermal equilibrium with C.
    • The answer lies in the fact that any two systems placed in thermal contact (meaning heat transfer can occur between them) will reach the same temperature.
    • The objects are then in thermal equilibrium, and no further changes will occur.
  • Thermal Radiation

    • $\displaystyle \text{Another Kirchoff's Law: }S_\nu = B_\nu(T) \text{ for a thermal emitter}$
    • Because $I_\nu=B_\nu(T)$ outside of the thermal emitting material and $S_\nu=B_\nu(T)$ within the material, we find that $I_\nu=B_\nu(T)$ through out the enclosure.
    • If we remove the thermal emitter from the blackbody enclosure we can see the difference between thermal radiation and blackbody radiation.
    • A thermal emitter has $S_\nu = B_\nu(T)$,$B_\nu(T)$ so the radiation field approaches $B_\nu(T)$ (blackbody radiation) only at large optical depth.
  • Thermal Pollution

    • Thermal pollution is the degradation of water quality by any process that changes ambient water temperature.
    • Thermal pollution is the degradation of water quality by any process that changes ambient water temperature.
    • Some fish species will avoid stream segments or coastal areas adjacent to a thermal discharge.
    • Some may assume that by cooling the heated water, we can possibly fix the issue of thermal pollution.
    • Identify factors that lead to thermal pollution and its ecological effects
  • Electrocyclic Reactions

    • In the first case, trans,cis,trans-2,4,6-octatriene undergoes thermal ring closure to cis-5,6-dimethyl-1,3-cyclohexadiene.
    • The second diagram below shows two examples of thermal electrocyclic opening of cyclobutenes to conjugated butadienes.
    • Photochemical ring closure can be effected, but the stereospecificity is opposite to that of thermal ring opening.
  • Linear Expansion

    • Thermal expansion is the tendency of matter to change in volume in response to a change in temperature.
    • Thermal expansion is the tendency of matter to change in volume in response to a change in temperature.
    • This kind of excitation is called thermal motion.
    • The degree of expansion divided by the change in temperature is called the material's coefficient of thermal expansion; it generally varies with temperature.
    • Thermal expansion of long continuous sections of rail tracks is the driving force for rail buckling.
Subjects
  • Accounting
  • Algebra
  • Art History
  • Biology
  • Business
  • Calculus
  • Chemistry
  • Communications
  • Economics
  • Finance
  • Management
  • Marketing
  • Microbiology
  • Physics
  • Physiology
  • Political Science
  • Psychology
  • Sociology
  • Statistics
  • U.S. History
  • World History
  • Writing

Except where noted, content and user contributions on this site are licensed under CC BY-SA 4.0 with attribution required.