# Python Script Tutorial: Main Solution

### Dynamic solution

In dynamic problems, we will want to iterate over time. We do this from the main Python file, looping over time steps. An example of this can be seen in this Kratos example.

The part we are interested in is at the end of the file, after we have read the model part and initialized a solver.

Dt = 0.02 nsteps = 101 gid_io.InitializeResults(mesh_name,(model_part).GetMesh()) for step in range(0,nsteps): time = Dt*step model_part.CloneTimeStep(time) if(step > 3): solver.Solve() gid_io.WriteNodalResults(DISPLACEMENT,model_part.Nodes,time,0) gid_io.PrintOnGaussPoints(PK2_STRESS_TENSOR,model_part,time)

gid_io.FinalizeResults()

Ignoring the output-specific parts of the code, which have already been explained in a previous tutorial, this code block is defining a time step and a number of steps, and looping over the time steps

Dt = 0.02 nsteps = 101 ... for step in range(0,nsteps):

At every time step, it updates the current time and creates a new solution step, advancing the nodal solution step data to a new iteration

time = Dt*step model_part.CloneTimeStep(time)

It then skips some time steps, in order to have a full set of nodal solution step data once it starts calculating

if(step > 3):

And, once we have enough previous time steps to use the time iteration scheme, it calls the solver

solver.Solve()

Once the solver is finished, it prints the results and advances to the next step.

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