+ /* check potential energy */
+ md.count=count;
+ md.atom=si;
+ md.potential=potential_lennard_jones;
+ md.force=force_lennard_jones;
+ md.cutoff_square=((LC_SI/4.0)*(LC_SI/4.0));
+ md.pot_params=&lj;
+ md.integrate=velocity_verlet;
+ md.time_steps=RUNS;
+ md.tau=TAU;
+ md.status=0;
+ md.visual=&vis;
+
+ lj.sigma6=3.0/16.0*LC_SI*LC_SI;
+ help=lj.sigma6*lj.sigma6;
+ lj.sigma6*=help;
+ lj.sigma12=lj.sigma6*lj.sigma6;
+ lj.epsilon=1;
+
+ u=get_e_pot(&md);
+
+ printf("potential energy: %f\n",u);
+ printf("total energy (1): %f\n",e+u);
+ printf("total energy (2): %f\n",get_total_energy(&md));
+
+ md.dim.x=a*LC_SI;
+ md.dim.y=b*LC_SI;
+ md.dim.z=c*LC_SI;
+