![Equation for the Intensity of Radiation (2.12) | Edexcel International A Level Physics Revision Notes 2019 | Save My Exams Equation for the Intensity of Radiation (2.12) | Edexcel International A Level Physics Revision Notes 2019 | Save My Exams](https://cdn.savemyexams.co.uk/cdn-cgi/image/w=1920,f=auto/uploads/2020/09/7.1.1.7-Intensity-of-a-spherical-wave.png)
Equation for the Intensity of Radiation (2.12) | Edexcel International A Level Physics Revision Notes 2019 | Save My Exams
![Scheme for explanation of used items N 0 = intensity of solar radiation... | Download Scientific Diagram Scheme for explanation of used items N 0 = intensity of solar radiation... | Download Scientific Diagram](https://www.researchgate.net/publication/277522667/figure/fig2/AS:692432203182080@1542100110698/Scheme-for-explanation-of-used-items-N-0-intensity-of-solar-radiation-at-origin-of-the.png)
Scheme for explanation of used items N 0 = intensity of solar radiation... | Download Scientific Diagram
![Equation for the Intensity of Radiation (2.12) | Edexcel International A Level Physics Revision Notes 2019 | Save My Exams Equation for the Intensity of Radiation (2.12) | Edexcel International A Level Physics Revision Notes 2019 | Save My Exams](https://cdn.savemyexams.co.uk/cdn-cgi/image/w=1920,f=auto/uploads/2020/09/7.1.1.7-Intensity-and-power-equation.png)
Equation for the Intensity of Radiation (2.12) | Edexcel International A Level Physics Revision Notes 2019 | Save My Exams
![The maximum wavelength of radiations emitted at 900 K is 4 mu m . What will be the maximum wavelength of radiation emitted at 1200 K? The maximum wavelength of radiations emitted at 900 K is 4 mu m . What will be the maximum wavelength of radiation emitted at 1200 K?](https://dwes9vv9u0550.cloudfront.net/images/2053634/4b2d4a14-45a5-41af-9bb8-01ff74fc04d9.jpg)
The maximum wavelength of radiations emitted at 900 K is 4 mu m . What will be the maximum wavelength of radiation emitted at 1200 K?
![The Transfer Equation The basic equation of transfer for radiation passing through gas: the change in specific intensity In is equal to: dIl = intensity. - ppt download The Transfer Equation The basic equation of transfer for radiation passing through gas: the change in specific intensity In is equal to: dIl = intensity. - ppt download](https://slideplayer.com/13203914/79/images/slide_1.jpg)