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A two-grid method is presented and discussed for a finite element approximation to a nonlinear parabolic equation in two space dimensions. Piecewise linear trial functions are used. In this two-grid scheme, the full nonlinear problem is solved only on a coarse grid with grid size H. The nonlinearities are expanded about the coarse grid solution on a fine gird of size h, and the resulting linear system is solved on the fine grid. A priori error estimates are derived with the H1-norm O(h+H2) which shows that the two-grid method achieves asymptotically optimal approximation as long as the mesh sizes satisfy h=O(H2). An example is also given to illustrate the theoretical results

A Two-Grid Method for Finite Element Solutions of Nonlinear Parabolic Equations