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Brownian dynamics (BD) can be used to describe the motion of molecules in molecular simulation. It is a simplified version of Langevin dynamics and corresponds to the limit where no average acceleration takes place during the simulation run. This approximation can also be described as 'overdamped' Langevin dynamics, or as Langevin dynamics without inertia. In Langevin dynamics, the equation of motion is
where U(X) is the particle interaction potential; In Brownian dynamics, no acceleration is assumed to take place. Thus, the
Defining ζ = γM, and using the Einstein relation, D = kBT / ζ, it is often convenient to write the equation as,
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is the gradient operator such that 
is the force calculated from the particle interaction potentials; the dot is a time derivative such that 
is the velocity and 
is the acceleration; T is the temperature, kB is Boltzmann's constant; and 
term is neglected, and the sum of these terms is zero.
