The hydrogen spectrum has a red line at 656 nm and a violet line at 434 nm. What angular separation between these two spectral lines is obtained with a diffraction grating that has 4074 lines/cm? (Assume that the light is incident normally on the grating.) first order separation 5.4 11.99 Your incorrect answer may have resulted from roundoff error. Make sure you keep extra significant figures in intermediate steps of your calculation. 34.44 By how many wavelengths does the path length from each slit differ to form the third-order principal maxima? Apply that condition or else use the equation for the location of the third-order maxima to find the angular separation of the two lines for m- 3.° second order separation third order separation

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The hydrogen spectrum has a red line at 656 nm and a violet line at 434 nm. What angular separation between these two spectral lines is obtained with a diffraction grating that has 4074 lines/cm? (Assume that the light is incident normally on the grating.) first order separation 5.4 11.99 second order separation Your incorrect answer may have resulted from roundoff error. Make sure you keep extra significant figures in intermediate steps of your calculation. 34.44 third order separation By how many wavelengths does the path length from each slit differ to form the third-order principal maxima? Apply that condition or else use the equation for the location of the third-order maxima to find the angular separation of the two lines for m 3. °