Abstract
In this paper, a family of Steffensen type methods of fourth-order convergence for solving
nonlinear smooth equations is suggested. In the proposed methods, a linear combination of
divided differences is used to get a better approximation to the derivative of the given
function. Each derivative-free member of the family requires only three evaluations of
the given function per iteration. Therefore, this class of methods has efficiency index equal
to 1.587. Kung and Traub conjectured that the order of convergence of any multipoint
method without memory cannot exceed the bound 2d�1, where d is the number of functional
evaluations per step. The new class of methods agrees with this conjecture for the
case d ¼ 3. Numerical examples are made to show the performance of the presented methods,
on smooth and nonsmooth equations, and to compare with other ones.
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