Final answer:
To calculate the wavelength of light that has its second-order maximum at 45.0° when falling on a diffraction grating, we can use the equation sinθ = mλ/d. Given that the grating has 5000 lines per centimeter, the spacing between the lines is 1/5000 cm. By substituting the values into the equation, we find that the wavelength of light is 450 nm.
Step-by-step explanation:
To calculate the wavelength of light that has its second-order maximum at 45.0° when falling on a diffraction grating, we can use the equation for diffraction grating:
sinθ = mλ/d
Where:
- θ is the angle of the maximum
- m is the order of the maximum, in this case, 2
- λ is the wavelength of light
- d is the spacing between the lines on the grating
Given that the grating has 5000 lines per centimeter, we can calculate the spacing between the lines:
d = 1/5000 cm
Substituting the values into the equation:
sin(45.0°) = 2λ/(1/5000)
λ = (1/5000) / sin(45.0°) = 450 nm
Therefore, the wavelength of light is 450 nm.