The yellow light from a sodium vapor lamp seems to be of pure wavelength, but it produces two first-order maxima at 36.093º and 36.129º when projected on a 10,000 line per centimeter diffraction grating. What are the two wavelengths to an accuracy of 0.1 nm?
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The yellow light from a sodium vapor lamp seems to be of pure wavelength, but it produces two first-order maxima at 36.093º and 36.129º when projected on a 10,000 line per centimeter diffraction grating. What are the two wavelengths to an accuracy of 0.1 nm?
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- Suppose that you have a reflection diffraction grating with n= 105 lines per millimeter. Light from a sodium lamp passes through the grating and is diffracted onto a distant screen. Two visible lines in the sodium spectrum have wavelengths 498 nm and 569 nm. What is the angular separation Δθ of the first maxima of these spectral lines generated by this diffraction grating? How wide does this grating need to be to allow you to resolve the two lines 589.00 and 589.59 nanometers, which are a well known pair of lines for sodium, in the second order (m=2)?A diffraction grating is just able to resolve two lines of 1 = 5140.3 Aº and 5140.85 A° in the first order. Will it resolve the lines 8037.50 A°º and 8037.90 Aº in the second order.Light from a sodium light source is incident perpendicular to a transmission grating that has 4,350 lines per centimeter. Sodium light consists of two very close wavelengths (2₁= 589.0 nm and 22 = 589.6 nm). The resulting diffraction pattern is displayed on a projection screen 1.60 m from the grating and for a particular order m, the maxima for these two wavelengths is separated by 1.32 mm. Determine the order for these two maxima. (Enter a whole number.) Submit Answer
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- White light hits a diffraction grating with lines that are spaced d = 1729 nm apart. What wavelength (λ) has its first order maximum (m = 1) diffracted to an angle of θ = 21.0º? Your answer should be in nanometers (nm)A laser beam is normally incident on a diffraction grating. The wavelength of the incident light is 1 = 560 nm, and the third-order maximum of the diffraction pattern is measured to be at an angle of 32.0°. (a) What is the density of rulings for the grating (in grooves/cm)? grooves/cm (b) Determine the total number of primary maxima that can be observed in this situation. primary maxima Need Help? Read ItWhen salt is sprinkled on a flame, yellow light consisting of two closely space wavelengths 11=588.997 nm and 12=589.594 nm are produced (they were observed by Fraunhofer in the Sun's spectrum). a) If this light falls on a diffraction grating with 300 lines/mm (pay attention to the units!), what is the angle between the 2nd order spectra of these two wavelengths? b) How many lines N of this grating must be illuminated for these lines to just be resolved?
- Find the angle in degrees between the first minima for the two sodium vapor lines, which have wavelengths of 589.1 and 589.6 nm, when they fall upon a single slit of width 2.90 µm. .01008912 O (b) What is the distance in mm between these minima if the diffraction pattern falls on a flat screen 2.00 m from the slit? .3448 X mm (c) Discuss the ease or difficulty of measuring such a distance. (Select all that apply.) ✔This distance is easily measured using a microscope. This distance is easily measured by the human eye. ✔This distance is easily measured using a magnifying glass.A light of wavelength 700 nm illuminates a diffraction grating. 2nd order maximum is at 55°. What is the number of gratings per cm? 854.5 lines/cm 585.1 lines/cm 1709 lines/cm 85450 lines/cm 11702 lines/cm 5851.4 lines/cm 170900 lines/cmA diffraction grating has 2500 lines/cm. What is the angle between the first-order maximum for red light wavelentgh = 680 nm and the first-order maximum for blue light wavelength = 410 nm?