Suppose that you have a reflection diffraction grating with n= 140 lines per millimeter. Light from...
Suppose that you have a reflection diffraction grating with n= 140 lines per millimeter. Light from a sodium lamp passes through the grating and is diffracted onto a distant screen.
a. 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?
answer is 57 degrees
b. 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)?
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Suppose that you have a reflection diffraction grating with n=
140 lines per millimeter. Light from...
Suppose that you have a reflection diffraction grating with n= 140 lines per millimeter. Light from...
Suppose that you have a reflection diffraction grating with n= 140 lines per millimeter. Light from a sodium lamp passes through the grating and is diffracted onto a distant screen. A. 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? B. How wide does this grating need to be to allow you to resolve the two...
A diffraction grating is used in second order, to resolve the spectrum of the light emitted...
A diffraction grating is used in second order, to resolve the spectrum of the light emitted by a sodium lamp. The sodium light is known to contain a doublet (λ 1 589.00 nm and λ2-589.59 nm). The grating contains 500 lines per centimeter. What is the minimum size of the grating that must be illuminated by the collimated light in order to resolve the two spectral lines?
A diffraction grating having 180 lines/mm is illuminated with a light signal containing only two wavelengths,...
A diffraction grating having 180 lines/mm is illuminated with a light signal containing only two wavelengths, λ1 = 444 nm and λ2 = 555 nm. The signal is incident perpendicularly on the grating. (a) What is the angular separation between the second-order maxima of these two wavelengths? (b) What is the smallest angle at which two of the resulting maxima are superimposed? (c) What is the highest order for which maxima for both wavelengths are present in the diffraction pattern?
A diffraction grating having 190 lines/mm is illuminated with a light signal containing only two wavelengths,...
A diffraction grating having 190 lines/mm is illuminated with a light signal containing only two wavelengths, λ1 = 440 nm and λ2 = 550 nm. The signal is incident perpendicularly on the grating. (a) What is the angular separation between the second-order maxima of these two wavelengths? (b) What is the smallest angle at which two of the resulting maxima are superimposed? (c) What is the highest order for which maxima for both wavelengths are present in the diffraction pattern?
How many slits are needed in a diffraction grating that must resolve the m = 1...
How many slits are needed in a diffraction grating that must resolve the m = 1 maxima of two spectral lines at lambda_s = 610 nm and lamd_1 = 615 nm? A 0.500-mu m-thick flake of glass (n_glass = 1.52) from a broken cover slip is floating on water (n_water = 1.33). If white light initially travelling in the air (n_air = 1.00) is incident normal to the surfact of the glass, what wavelengths in the visible spectrum undergo constructive...
QUESTIONS You use a diffraction grating with 3000 lines / cm to separate two spectral lines...
QUESTIONS You use a diffraction grating with 3000 lines / cm to separate two spectral lines in hydrogen, with wavelengths of 485 nm and 656 nm. If the screen to observe the diffraction pattern is 15 cm from the gratine what is the distance on the screen between the first order maxima for the two spectral lines? Enter your answer in cm. Worning: The small angle approximation is not valid in this question
A diffraction grating having 190 lines/mm is illuminated with a light signal containing only two wavelengths,...
A diffraction grating having 190 lines/mm is illuminated with a light signal containing only two wavelengths, λ1 = 420 nm and λ2-525 nm. The signal is incident perpendicularly on the grating. (a) What is the angular separation between the second-order maxima of these two wavelengths? (b) What is the smallest angle at which two of the resulting maxima are superimposed? (c) What is the highest order for which maxima for both wavelengths are present in the diffraction pattern? (a) Number...
Please draw a diagram thank you! Light from a sodium lamp passes through a diffraction grating...
Please draw a diagram thank you!
Light from a sodium lamp passes through a diffraction grating having 1000 slits per millimeter. The interference patter is viewed on a screen 1.00 m from the grating. Two bright yellow fringes are visible at 72.88 cm and 73.00 cm from the central maximum. What are the wavelengths of the two fringes? 589.0 nm and 589.6 nm 72.88 nm and 73.00 nm 678.9 nm and 679.8 nm 711.7 nm and 771.9 nm ck Save...
Intense white light is incident on a diffraction grating that has 460 lines/mm. (a) What is...
Intense white light is incident on a diffraction grating that has 460 lines/mm. (a) What is the highest order in which the complete visible spectrum can be seen with this grating? (Enter 1 for first order, 2 for second order, etc.) (b) What is the angular separation between the violet edge (400 nm) and the red edge (700 nm) of the first order spectrum produced by the grating?
Intense white light is incident on a diffraction grating that has 610 lines/mm. (a) What is...
Intense white light is incident on a diffraction grating that has 610 lines/mm. (a) What is the highest order in which the complete visible spectrum can be seen with this grating? (Enter 1 for first order, 2 for second order, etc.) (b) What is the angular separation between the violet edge (400 nm) and the red edge (700 nm) of the first order spectrum produced by the grating? °
A diffraction grating is used in second order, to resolve the spectrum of the light emitted by a sodium lamp. The sodium light is known to contain a doublet (λ 1 589.00 nm and λ2-589.59 nm). The grating contains 500 lines per centimeter. What is the minimum size of the grating that must be illuminated by the collimated light in order to resolve the two spectral lines?
How many slits are needed in a diffraction grating that must resolve the m = 1 maxima of two spectral lines at lambda_s = 610 nm and lamd_1 = 615 nm? A 0.500-mu m-thick flake of glass (n_glass = 1.52) from a broken cover slip is floating on water (n_water = 1.33). If white light initially travelling in the air (n_air = 1.00) is incident normal to the surfact of the glass, what wavelengths in the visible spectrum undergo constructive...
QUESTIONS You use a diffraction grating with 3000 lines / cm to separate two spectral lines in hydrogen, with wavelengths of 485 nm and 656 nm. If the screen to observe the diffraction pattern is 15 cm from the gratine what is the distance on the screen between the first order maxima for the two spectral lines? Enter your answer in cm. Worning: The small angle approximation is not valid in this question
A diffraction grating having 190 lines/mm is illuminated with a light signal containing only two wavelengths, λ1 = 420 nm and λ2-525 nm. The signal is incident perpendicularly on the grating. (a) What is the angular separation between the second-order maxima of these two wavelengths? (b) What is the smallest angle at which two of the resulting maxima are superimposed? (c) What is the highest order for which maxima for both wavelengths are present in the diffraction pattern? (a) Number...
Please draw a diagram thank you!
Light from a sodium lamp passes through a diffraction grating having 1000 slits per millimeter. The interference patter is viewed on a screen 1.00 m from the grating. Two bright yellow fringes are visible at 72.88 cm and 73.00 cm from the central maximum. What are the wavelengths of the two fringes? 589.0 nm and 589.6 nm 72.88 nm and 73.00 nm 678.9 nm and 679.8 nm 711.7 nm and 771.9 nm ck Save...
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