Add to ORKGIn this paper, an order six implicit block multistep method is implemented for third order ordinary differential equations using variable step size approach. The idea which originated from Milne’s possess a number of computational vantages when equated with existing methods. They include; designing a suitable step size/changing the step size, convergence criteria (tolerance level) and error control/minimization. The approach employs the estimates of the principal local truncation error on a pair of explicit and implicit of Adams type formulas which are implemented in P(CE)m mode. Gauss Seidel method is adopted for the execution of the suggested method. Numerical examples are given to examine the efficiency of the method and will be compare...
AbstractA new four-point implicit block multistep method is developed for solving systems of first-o...
A block linear multistep method for solving special third order initial value problems of ordinary d...
This paper outlines an alternative algorithm for solving general second order ordinary differential ...
A new 3-point three step method is developed for solving system of first order ordinary differential...
In this study, a variable step size approach is adopted in implementing Implicit Block Multi-step M...
A new four-point implicit block multistep method is developed for solving systems of first-order ord...
A new 3-point three step method is developed for solving system of first order ordinary differential...
A new four-point implicit block multistep method is developed for solving systems of first-order ord...
A new four-point implicit block multistep method is developed for solving systems of first-order ord...
A new four-point implicit block multistep method is developed for solving systems of first-order ord...
In this study, a two point implicit block direct integration method is derived for solving directly ...
AbstractA new four-point implicit block multistep method is developed for solving systems of first-o...
Direct block multistep method is developed for the numerical solution of second order ordinary diffe...
Two-point four step direct implicit block method is presented by applying the simple form of Adams- ...
The numerical solutions of general third order initial value problems of ordinary di�erential equat...
AbstractA new four-point implicit block multistep method is developed for solving systems of first-o...
A block linear multistep method for solving special third order initial value problems of ordinary d...
This paper outlines an alternative algorithm for solving general second order ordinary differential ...
A new 3-point three step method is developed for solving system of first order ordinary differential...
In this study, a variable step size approach is adopted in implementing Implicit Block Multi-step M...
A new four-point implicit block multistep method is developed for solving systems of first-order ord...
A new 3-point three step method is developed for solving system of first order ordinary differential...
A new four-point implicit block multistep method is developed for solving systems of first-order ord...
A new four-point implicit block multistep method is developed for solving systems of first-order ord...
A new four-point implicit block multistep method is developed for solving systems of first-order ord...
In this study, a two point implicit block direct integration method is derived for solving directly ...
AbstractA new four-point implicit block multistep method is developed for solving systems of first-o...
Direct block multistep method is developed for the numerical solution of second order ordinary diffe...
Two-point four step direct implicit block method is presented by applying the simple form of Adams- ...
The numerical solutions of general third order initial value problems of ordinary di�erential equat...
AbstractA new four-point implicit block multistep method is developed for solving systems of first-o...
A block linear multistep method for solving special third order initial value problems of ordinary d...
This paper outlines an alternative algorithm for solving general second order ordinary differential ...