I think this may be the most clear video on this subject I have seen. Well done! I will pass on to other students. Tuning in from UC Berkeley California USA!
Hey, it is a nice explanation! I have been looking for the tables: "relative reciprocal lattice spacings for cubic lattice, but I couldn't find them. Can you share with us the book name where you found them? Thank you very much in advance!
not clear explanation, for example R1 is 120 , is it 120 nm or what? okay then, hkl 1.41 = 1.41 how can you suddenly determine if it is 110 and 100 by lloking the list? explain clearly!
I think we're supposed to run different trials and see which one of them will get a ratio that is equal to R1/R2... but apparently he ran the first trial and it matched, so he didn't need to iterate.
Hi, R1 is 120 nm-1. Diffraction patterns happen in inverse space so the units are inverse. If you have the camera Length "L" this is useful, however, you can use what ever units you want because at the end of the day you're taking a ratio and using the Atomic lattice constant to figure out the interatomic spacing on different planes. Hope this helps!
The best and simplest explanation among all videos about ED you can find on RUclips
I think this may be the most clear video on this subject I have seen. Well done! I will pass on to other students. Tuning in from UC Berkeley California USA!
Very great tutorial and clear explanation, helps a lot.
Excellent video!
best and simple
Thank you so much....
how did you index R3
"relative reciprocal lattice spacings for cubic lattice book name
Dear sir. How these rule applicable for reciprocal lattice because we can not identify centre point there?
nice explanation
👏👏👏👏👏👏
Nice
Hey, it is a nice explanation! I have been looking for the tables: "relative reciprocal lattice spacings for cubic lattice, but I couldn't find them. Can you share with us the book name where you found them? Thank you very much in advance!
Thank you🙏
Can you share charts pdf or link from where we can download?
not clear explanation,
for example R1 is 120 , is it 120 nm or what?
okay then, hkl 1.41 = 1.41
how can you suddenly determine if it is 110 and 100 by lloking the list?
explain clearly!
I think we're supposed to run different trials and see which one of them will get a ratio that is equal to R1/R2... but apparently he ran the first trial and it matched, so he didn't need to iterate.
Hi, R1 is 120 nm-1. Diffraction patterns happen in inverse space so the units are inverse. If you have the camera Length "L" this is useful, however, you can use what ever units you want because at the end of the day you're taking a ratio and using the Atomic lattice constant to figure out the interatomic spacing on different planes. Hope this helps!