The density of so LIF IS about 2,640 kg/m ute the nearest- ighbor dist in LIF, that is, tne distance between neighboring Li+ and F- ions. Note that LiİF has the same lattice structure as NaCl. The distance is given in terms of the number density by the equation (Use the following as necessary: N and V.) d = Therefore the distance (in nm) is d = nm.
The density of so LIF IS about 2,640 kg/m ute the nearest- ighbor dist in LIF, that is, tne distance between neighboring Li+ and F- ions. Note that LiİF has the same lattice structure as NaCl. The distance is given in terms of the number density by the equation (Use the following as necessary: N and V.) d = Therefore the distance (in nm) is d = nm.
Chemistry by OpenStax (2015-05-04)
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ISBN:9781938168390
Author:Klaus Theopold, Richard H Langley, Paul Flowers, William R. Robinson, Mark Blaser
Publisher:Klaus Theopold, Richard H Langley, Paul Flowers, William R. Robinson, Mark Blaser
Chapter7: Chemical Bonding And Molecular Geometry
Section: Chapter Questions
Problem 76E: The lattice energy of LiF is 1023 kJ/mol, and the Li—F distance is 200.8 pm. NaF crystallizes in the...
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![The density of solid LiF is about 2,640 kg/m3. Compute the nearest-neighbor distance in LiF, that is, the distance between
neighboring Li+ and F- ions. Note that LiF has the same lattice structure as NaCI.
The distance is given in terms of the number density by the equation (Use the following as necessary: N and V.)
d =
Therefore the distance (in nm) is
d =
nm.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fcd5ccdf2-0139-4f4b-b6ac-b5a363fb02f2%2F9b4c503e-3918-4085-9c49-58e00701305c%2Fhue20l8_processed.png&w=3840&q=75)
Transcribed Image Text:The density of solid LiF is about 2,640 kg/m3. Compute the nearest-neighbor distance in LiF, that is, the distance between
neighboring Li+ and F- ions. Note that LiF has the same lattice structure as NaCI.
The distance is given in terms of the number density by the equation (Use the following as necessary: N and V.)
d =
Therefore the distance (in nm) is
d =
nm.
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