Assume that a grating designed for work in the IR is blazed at 2500 cm -1,...

A diffraction grating has 2500 lines/cm lines/cm . What is the angle between the first-order maxima...

A diffraction grating has 2500 lines/cm lines/cm . What is the angle between the first-order maxima for red light ( λ=680nm λ=680nm ) and blue light ( λ=410nm λ=410nm )?

Consider the first order diffraction of 550 nm light from a 600 line/mm grating in a...

Consider the first order diffraction of 550 nm light from a 600 line/mm grating in a 0.35 meter focal length monochromator. a) If the incident light is normal to the grating surface, what is the angle of the diffracted light? b) What is the dispersion at the exit slit? If the grating has a width of 15 cm, what is the diffraction limited resolution (in nm) of the monochromator at 550 nm? c) What slit width does this correspond to?...

White light is spread out into its spectral components by a diffraction grating. If the grating...

White light is spread out into its spectral components by a diffraction grating. If the grating has 2055 lines per centimeter, at what angle does red light of wavelength 640 nm appear in first-order spectrum? (Assume that the light is incident normally on the grating.) °

1. A diffraction grating is used to separate the spectral lines of light, emanating from a...

1. A diffraction grating is used to separate the spectral lines of light, emanating from a gas discharge tube (e.g., a neon light), that is normally incident on the grating. On a screen placed 2.0 m from the grating, the third-order (m = 3) interference maximum for violet light (λ = 4.4 × 10−7 m) is found to be 0.20 cm farther from the location of the central maximum (m = 0) on the screen than the second-order maximum of...

a diffraction grating has a length of of 0.9cm and contains 1.1e4 lines. Calculate the first...

a diffraction grating has a length of of 0.9cm and contains 1.1e4 lines. Calculate the first order diffraction angle for light with a wavelength of 625nm. give your answers in degrees.

A diffraction grating has 1 350 rulings/cm. On a screen 2.50 m from the grating, it...

A diffraction grating has 1 350 rulings/cm. On a screen 2.50 m from the grating, it is found that for a particular order m, the maxima corresponding to two closely spaced wavelengths of sodium (589.0 nm and 589.6 nm) are separated by 0.66 mm. Determine the value of m. *I am extremely confused about this problem, please show all work and clearly explain how you got the answer*

24.73 . LIght is incident on a diffraction grating with 8600 lines/cm , and the pattern...

24.73 . LIght is incident on a diffraction grating with 8600 lines/cm , and the pattern is viewed on a screen 2.5 m from the grating. The incident light beam consists of two wavelengths, 4.5×10?7 m and 6.9×10?7 m . Part A Calculate the linear distance between the first-order bright fringes of these two wavelengths on the screen.

A diffraction grating has 1 250 rulings/cm. On a screen 1.50 m from the grating, it...

A diffraction grating has 1 250 rulings/cm. On a screen 1.50 m from the grating, it is found that for a particular order m, the maxima corresponding to two closely spaced wavelengths of sodium (589.0 nm and 589.6 nm) are separated by 0.36 mm. Determine the value of m. m =

A diffraction grating has 1 950 rulings/cm. On a screen 1.00 m from the grating, it...

A diffraction grating has 1 950 rulings/cm. On a screen 1.00 m from the grating, it is found that for a particular order m, the maxima corresponding to two closely spaced wavelengths of sodium (589.0 nm and 589.6 nm) are separated by 0.42 mm. Determine the value of m. Exact answers with detail please

A compound with molecular formula C4H6O4 produces a broad signal between 2500 and 3600 cm-1 in...

A compound with molecular formula C4H6O4 produces a broad signal between 2500 and 3600 cm-1 in its IR spectrum and produces two signals in its 1H NMR spectrum (a singlet at 12.1 ppm with a relative integration of 1 and a singlet at 2.4 ppm with a relative integration of 2). Draw the structure of the compound.