Isolation Intervals of the Real Roots of the Parametric Cubic Equation and Improved Complete Root Classification

The isolation intervals of the real roots of the real symbolic monic cubic polynomial (Formula presented.) are found in terms of simple functions of the coefficients of the polynomial (such as (Formula presented.), (Formula presented.), (Formula presented.), (Formula presented.), when (Formula presented.) is negative), and the roots of some auxiliary quadratic equations whose coefficients are also simple functions of the coefficients of the cubic. A much-improved complete root classification, addressing the signs (together with giving the isolation intervals) of the individual roots, is also presented. No numerical approximations or root finding techniques are used. Instead of considering the discriminant of the cubic, criterion for the existence of a single real root or three real roots is found as conditions on the coefficients of the cubic, resulting from the roots of the auxiliary quadratic equations. It is also shown that, if a cubic equation has three real roots, then these lie in an interval (Formula presented.) such that (Formula presented.), independent of (Formula presented.). A detailed algorithm for applying the method for isolation of the roots of the cubic is also given and it is illustrated through examples, including the full mathematical analysis of the cubic equation associated with the Rayleigh elastic waves and finding the isolation intervals of its real roots.