![Thermal Processes SOEE 1400 : Lecture 10. SOEE1400 : Meteorology and Forecasting2 Radiation Processes Incoming solar radiation 342 W m 2 Reflected by. - ppt download Thermal Processes SOEE 1400 : Lecture 10. SOEE1400 : Meteorology and Forecasting2 Radiation Processes Incoming solar radiation 342 W m 2 Reflected by. - ppt download](https://images.slideplayer.com/31/9641410/slides/slide_2.jpg)
Thermal Processes SOEE 1400 : Lecture 10. SOEE1400 : Meteorology and Forecasting2 Radiation Processes Incoming solar radiation 342 W m 2 Reflected by. - ppt download
![The sun's rays lit up a blue sky covered with cumulus clouds. Background for forecast and meteorology illustration. Solar radiation. Sun beaming Stock Photo - Alamy The sun's rays lit up a blue sky covered with cumulus clouds. Background for forecast and meteorology illustration. Solar radiation. Sun beaming Stock Photo - Alamy](https://c8.alamy.com/comp/2CCEMHT/the-suns-rays-lit-up-a-blue-sky-covered-with-cumulus-clouds-background-for-forecast-and-meteorology-illustration-solar-radiation-sun-beaming-2CCEMHT.jpg)
The sun's rays lit up a blue sky covered with cumulus clouds. Background for forecast and meteorology illustration. Solar radiation. Sun beaming Stock Photo - Alamy
![Compendium of meteorology. Meteorology. 14 RADIATION mates the spectral-energy distribution of a black body (Fig. 1). It is therefore not unusual to speak of the black-body temperatiu-e of the sun as Compendium of meteorology. Meteorology. 14 RADIATION mates the spectral-energy distribution of a black body (Fig. 1). It is therefore not unusual to speak of the black-body temperatiu-e of the sun as](https://c8.alamy.com/comp/REDY98/compendium-of-meteorology-meteorology-14-radiation-mates-the-spectral-energy-distribution-of-a-black-body-fig-1-it-is-therefore-not-unusual-to-speak-of-the-black-body-temperatiu-e-of-the-sun-as-6000k-although-this-numerical-value-may-vary-by-several-hundred-degrees-depending-upon-the-method-used-to-calculate-it-4-for-example-the-total-energy-emitted-by-a-black-body-per-unit-area-per-imit-time-is-given-by-at-where-t-is-its-temperature-in-degrees-absolute-and-o-is-the-stefan-boltzmann-constant-the-solar-constant-is-com-monly-taken-as-194-ly-minquot-where-ly-=-langley-=-g-c-REDY98.jpg)