blackbody radiation Sentence Examples
- Blackbody radiation refers to the electromagnetic radiation emitted by a perfect absorber and emitter of energy.
- The spectrum of blackbody radiation depends solely on the temperature of the emitting object.
- According to Planck's law, blackbody radiation follows a specific distribution that describes its intensity across different wavelengths.
- Blackbody radiation plays a crucial role in understanding the thermal properties of materials and celestial objects.
- Wien's displacement law states that the peak wavelength of blackbody radiation is inversely proportional to the temperature of the emitter.
- The Stefan-Boltzmann law provides a mathematical relationship between the total power emitted by a blackbody and its temperature.
- Blackbody radiation is responsible for the glow of heated metal objects, such as the filament in an incandescent light bulb.
- In astronomy, blackbody radiation helps astronomers determine the temperature and composition of stars by analyzing their emitted spectra.
- The concept of blackbody radiation is fundamental to the field of quantum mechanics and has numerous applications in technology.
- Understanding blackbody radiation is essential for designing efficient heating systems, thermal sensors, and optical devices.
blackbody radiation Meaning
blackbody radiation (n)
the electromagnetic radiation that would be radiated from an ideal black body; the distribution of energy in the radiated spectrum of a black body depends only on temperature and is determined by Planck's radiation law
Synonyms & Antonyms of blackbody radiation
No Synonyms and anytonyms found
FAQs About the word blackbody radiation
the electromagnetic radiation that would be radiated from an ideal black body; the distribution of energy in the radiated spectrum of a black body depends only
No synonyms found.
No antonyms found.
Blackbody radiation refers to the electromagnetic radiation emitted by a perfect absorber and emitter of energy.
The spectrum of blackbody radiation depends solely on the temperature of the emitting object.
According to Planck's law, blackbody radiation follows a specific distribution that describes its intensity across different wavelengths.
Blackbody radiation plays a crucial role in understanding the thermal properties of materials and celestial objects.
