# mus_convertFac_type Derived Type

## type, public :: mus_convertFac_type

This type contains the converstion factor for derived variables from lattice to physical.\n Their inverses can be used to convert physical to lattice units use reference density to parmeterize kg and reference mole density to parmeterize mol

## Components

TypeVisibilityAttributesNameInitial
real(kind=rk), private :: length

length (m) = dx

real(kind=rk), private :: time

time (s) = dt

real(kind=rk), private :: vel

velocity(m/s) = dx/dt

real(kind=rk), private :: visc

kinematic viscosity(m^2/s) = dx^2/dt

real(kind=rk), private :: viscDyna

Dynamic viscosity (Pa s) = kg/m/s

real(kind=rk), private :: accel

acceleration(m/s^2) = dx/dt^2

real(kind=rk), private :: force

Force(N)(kg m/s^2) = rho0*dx^4/dt^2

real(kind=rk), private :: body_force

Force per unit volume (N/m^3)(kg/s^2/m^2) = rho0*dx/dt^2

real(kind=rk), private :: press

Pressure(N/m^2)(kg/m/s^2) = rho0*dx^2/dt^2

real(kind=rk), private :: strainRate

Strain Rate (1/s) = 1/dt

real(kind=rk), private :: energy

Energy (N-m) (kgm^2/s^2) = rho0dx^5/dt^2

real(kind=rk), private :: chargeDens

mole density(mol/m^3) = mole0/dx^3 Charge density (C/m^3) = Coulomb0/dx^3

real(kind=rk), private :: currentDens

Current density (C/s/m^2) = Coulomb0/dt/dx^2

real(kind=rk), private :: moleFlux

mole flux(mol/m^2/s) = moleDen0*dx/dt

real(kind=rk), private :: flux

mass flux(kg/m^2/s) = rho0*dx/dt

real(kind=rk), private :: diffusivity

diffusivity(m^2/s) = dx^2/dt