Determine the wavelength of different spectral lines of mercury light using plane transmission grating
1. The maximum angle of diffraction in a plane transmission diffraction grating is:
2. The optical element used to split a poly-chromatic light into its constituent component colors is called-
3. What is the primary instrument used to measure the angles of diffraction in the experiment to determine the wavelength of different spectral lines of mercury light using a plane transmission grating?
4. Which light source is typically used in the experiment to determine the wavelength of different spectral lines of mercury light using a plane transmission grating?
5. What is the optical component used to disperse the light into its constituent colors in the experiment to determine the wavelength of different spectral lines of mercury light using a plane transmission grating?
6. The formula used to calculate the wavelength of a spectral line in the experiment involves the grating element, angle of diffraction, and order of the spectrum. What is this formula?
7. Which of the following are the most common colors observed in the mercury spectrum?