The application of electrical conductivity, extremely flexible graphene membranes, to capture energy from ambient vibrations has promising potential. We study the physics of self-energy from the vibrations and how current is created in graphene for theoretical research. We demonstrate the effects of lattice distortions on the electrical current, such as isotropic tensile strain ∈is, shear strain ∈ss, uniaxial armchair strain ∈as, and zigzag strain ∈zs. We show how this movement might cause an electrical current to flow in a neighbouring circuit.