README.md

HookesMesh

Simulates hookean mechanics for a multidimensional mesh, and visualizes it using MeshVisualizer from tkrasnoperov.

Creating a Mesh

All mesh and simulation parameters are controlled through the addition and modification of code at the bottom of main.py [] indicates a list that should be 3D, even if the simulation will logically only operate in less

Physical Parameters

Mesh([list containing sizes in up to 3 dimensions)

Mesh.create_anchor([position in mesh array "logically"], [actual position])

Mesh.create_pointmass([position in mesh array "logically"], [actual position])

Mesh.create_rest_spring([one mesh array "logical" position], [other mesh array "logical" position], k-value for spring)

Simulation Parameters

Instance(Mesh object, simulation tick duration in seconds, total simulation time in seconds)

Instance.intialize_displacement([one mesh array "logical" position], [displacement])

Instance.intialize_static_load([one mesh array "logical" position], [force])

Instance.intialize_tracking([one mesh array "logical" position], [axis to track (1 to 3)])
Tracked data will be used by the analysis tools for graphing, deviation from ideal, and the simple fourier analysis

Instance.simulate()

Analysis Tools

Instance.graph_motion()

Instance.graph_energy()

Instance.simple_fourier()

Instance.deviation_from_ideal(lambda function representing x(t) analytical solution)