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Your x-ray lab has a monochromator consisting of a single crystal of nickel cut so that the (001) plane lies in the cube face....Asked by svetika
Your x-ray lab has a monochromator consisting of a single crystal of nickel cut so that the (001) plane lies in the cube face. At what angle (in degrees) should the cube face be tilted with respect to the incident beam in order to select radiation with a wavelength λ=3.091 A˚? The lattice constant of nickel is a=3.53 A˚.
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Answered by
Ibvda
26.1
Answered by
anonymous
can you post the answer more detailed? thanks!
Answered by
jhzbsdjh
Your x-ray lab has a monochromator consisting of a single crystal of nickel cut so that the (111) plane lies in the cube face. At what angle (in degrees) should the cube face be tilted with respect to the incident beam in order to select radiation with a wavelength λ=3.091 A˚? The lattice constant of nickel is a=3.53 A˚.
plzzz help
plzzz help
Answered by
Harold
Your x-ray lab has a monochromator consisting of a single crystal of nickel cut so that the (111) plane lies in the cube face. At what angle (in degrees) should the cube face be tilted with respect to the incident beam in order to select radiation with a wavelength λ=3.091 A˚? The lattice constant of nickel is a=3.53 A˚.
Any ideads?
Any ideads?
Answered by
JBO
50
Answered by
an
d111
λ=3.091A
a=3.53A
λ=2d(111)Sin(angle)
d=a/sqrt(h^2+k^2+l^2)
λ=3.091A
a=3.53A
λ=2d(111)Sin(angle)
d=a/sqrt(h^2+k^2+l^2)
Answered by
Vik
49.32
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