X-ray diffraction experiment of a powder material of nanoparticle size was conducted. The appearance of a peak from the x-ray diffraction pattern of this nanopowder material is as follows. Using this experimental data and Scherrer equation, calculate the particle size. The wavelength of the X-ray used in this experiment λ = 1.54 Å and K = 0.9.
X-ray diffraction experiment of a powder material of nanoparticle size was conducted. The appearance of a peak from the x-ray diffraction pattern of this nanopowder material is as follows. Using this experimental data and Scherrer equation, calculate the particle size. The wavelength of the X-ray used in this experiment λ = 1.54 Å and K = 0.9.
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X-ray diffraction experiment of a powder material of nanoparticle size was conducted. The appearance of a peak from the x-ray diffraction pattern of this nanopowder material is as follows. Using this experimental data and Scherrer equation, calculate the particle size. The wavelength of the X-ray used in this experiment λ = 1.54 Å and K = 0.9.

Transcribed Image Text:Şiddet
1000
500-
20
31.4 31.8 32.2 32.6
33.0
![Hint:
Fnkl = E-1 fjexp [2mi(hx; + ky; + Iz;)]
building factor :
h²+k?+l?
d2
a2
for cubic building:
II](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd7f6a886-8eb5-480e-9c2f-01868f33b3e8%2Fb969c8f0-0db1-4808-ba1d-bb83345681b8%2Ff76uk1b_processed.png&w=3840&q=75)
Transcribed Image Text:Hint:
Fnkl = E-1 fjexp [2mi(hx; + ky; + Iz;)]
building factor :
h²+k?+l?
d2
a2
for cubic building:
II
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