A home made spectrometer uses a diffraction grating with 500 lines per mm. Setting the diffraction grating to be 1.05 m away from a detecting wall, a pink sample blocks all but the violet and red lines from the spectrum. The second order violet line occurs at a distance of 46.0 cm from the n=0 central bright spot (as shown below). central bright spot Yz(violer) detection screen pink sample diffraction grating light source Part A The wavelength of violet light that passes through the pink sample is Πνα ΑΣφ ? Submit Request Answer

A home made spectrometer uses a diffraction grating with 500 lines per mm. Setting the diffraction grating to be 1.05 m away from a detecting wall, a pink sample blocks all but the violet and red lines from the spectrum. The second order violet line occurs at a distance of 46.0 cm from the n=0 central bright spot (as shown below). central bright spot Yz(violer) detection screen pink sample diffraction grating light source Part A The wavelength of violet light that passes through the pink sample is Πνα ΑΣφ ? Submit Request Answer

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Question

A home made spectrometer uses a diffraction grating with 500 lines per mm. Setting the diffraction grating to be 1.05 m away from a detecting wall, a pink sample blocks all but the violet and red lines from the spectrum. The second order violet line occurs at a distance
of 46.0 cm from the n=0 central bright spot (as shown below).
central bright spot
Y2(violet)
detection screen
pink sample
diffraction grating
light source
Part A
The wavelength of violet light that passes through the pink sample is
ΗV ΑΣφ
?
nm
Submit
Request Answer

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