Definitions And Laws - FLIR Ex series User Manual

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Definitions and laws

Term

Absorption and emission

Apparent temperature

Color palette

Conduction

Convection

Diagnostics

Direction of heat transfer

Emissivity

Energy conservation

Exitant radiation

Heat

Heat transfer rate

Incident radiation

IR thermography

Isotherm

2. Kirchhoff's law of thermal radiation.

3. Based on ISO 18434-1:2008 (en).

4. Based on ISO 13372:2004 (en).

5. 2nd law of thermodynamics.

6. This is a consequence of the 2nd law of thermodynamics, the law itself is more complicated.

7. Based on ISO 16714-3:2016 (en).

8. 1st law of thermodynamics.

9. Fourier's law.

10. This is the one-dimensional form of Fourier's law, valid for steady-state conditions.

11. Based on ISO 18434-1:2008 (en)

#T559828; r. AK/40423/40448; en-US

Definition

The capacity or ability of an object to absorb incident radiated

energy is always the same as the capacity to emit its own en-

ergy as radiation

uncompensated reading from an infrared instrument, contain-

ing all radiation incident on the instrument, regardless of its

sources

assigns different colors to indicate specific levels of apparent

temperature. Palettes can provide high or low contrast, de-

pending on the colors used in them

direct transfer of thermal energy from molecule to molecule,

caused by collisions between the molecules

heat transfer mode where a fluid is brought into motion, either

by gravity or another force, thereby transferring heat from one

place to another

examination of symptoms and syndromes to determine the

nature of faults or failures

Heat will spontaneously flow from hotter to colder, thereby

transferring thermal energy from one place to another

ratio of the power radiated by real bodies to the power that is

radiated by a blackbody at the same temperature and at the

same wavelength

The sum of the total energy contents in a closed system is

constant

radiation that leaves the surface of an object, regardless of its

original sources

thermal energy that is transferred between two objects (sys-

tems) due to their difference in temperature

The heat transfer rate under steady state conditions is directly

proportional to the thermal conductivity of the object, the

cross-sectional area of the object through which the heat

flows, and the temperature difference between the two ends

of the object. It is inversely proportional to the length, or thick-

ness, of the object

radiation that strikes an object from its surroundings

process of acquisition and analysis of thermal information

from non-contact thermal imaging devices

replaces certain colors in the scale with a contrasting color. It

marks an interval of equal apparent temperature

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Definitions And Laws - FLIR Ex series User Manual

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