**Wavelength and Electromagnetic Spectrum Analysis****Question:** What is the wavelength (in nm) of the most intense radiation emitted from the surface of Mercury at high noon? (Hint: Use Wien's law, \(\lambda_{\text{max}} = \frac{2.90 \times 10^6 \, \text{m} \cdot \text{K}}{T \, (\text{in K})}\))__ __ nm**In which band of the electromagnetic spectrum is that wavelength?** (Hint: Examine the following figure.)**Diagram Explanation:**- **Figure (a): Electromagnetic Spectrum Overview** - The diagram shows the electromagnetic spectrum from short wavelengths (gamma-ray, X-ray) to long wavelengths (radio). - Visible light is highlighted between 400 nm (4 x 10^-7 meters) and 700 nm (7 x 10^-7 meters). - Other categories include ultraviolet, infrared, and microwave.- **Figure (b): Earth's Atmospheric Opacity** - The graph displays the opacity of the Earth's atmosphere across different wavelengths. - It shows transparency windows where specific wavelengths pass through the atmosphere, like the visible and radio windows.**Spectrum Categories:**- \( \bigcirc \) gamma-ray- \( \bigcirc \) X-ray- \( \bigcirc \) ultraviolet- \( \bigcirc \) visual- \( \bigcirc \) infrared- \( \bigcirc \) microwave- \( \bigcirc \) radio

λmax=2.90×10-3 m·KT The maximum temperature in Mercury at high noon is around 430 degree Celsius.

2.90 x 10° m :K What is the wavelength (in nm) of the most intense radiation emitted from the surface of Mercury at high noon? ( Hint: Use Wien's law, Àmay T (in K) nm In which band of the electromagnetic spectrum is that wavelength? (Hint: Examine the following figure.)

2.90 x 10° m :K What is the wavelength (in nm) of the most intense radiation emitted from the surface of Mercury at high noon? ( Hint: Use Wien's law, Àmay T (in K) nm In which band of the electromagnetic spectrum is that wavelength? (Hint: Examine the following figure.)

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