First, we should find the lattice parameter(a) in terms of atomic radius(R). Then, we can find linear density or planar density. Green ones touches each other. 1. Draw the atoms on the direction, …

Linear Density Linear density (LD) is defined as the fraction of the line length particular crystallographic direction that passes through atom centers.

Explore linear and planar atomic densities in FCC, BCC, and HCP crystal structures. Includes calculations and examples.

Atomic planar density: number of atoms centered on a plane/area of plane #atoms Planar Density = Area(2D repeat unit)

Linear Density (L.D.): It is defined as number of atoms per unit length whose centres on the direction vector for specific crystallographic direction.

Jan 15, 2023 · To calculate linear density, two essential parameters are needed, and these parameters are Number of Atoms Centered on Direction Vector (N) and Length of Direction …

The Linear Density formula is defined as number of atoms centered on direction vector per unit length of direction vector and is represented as L.D = n/L or Linear Density = Number of …

Linear and Planar Density Why do we care? Properties, in general, depend on linear and planar density. Examples: Speed of sound along directions Slip (deformation in metals) depends on …

Learn to calculate linear and planar density in BCC crystal structures. Includes lattice parameters, directions, planes, and example solutions.

Jan 29, 2025 · To find the linear atomic density, you calculate the number of atoms intersected by a specific direction vector and divide it by the length of that vector. Linear atomic density is a …