/// <summary> /// Returns the derivative of the Airy function Ai. /// <para>AiryAiPrime(z) is defined as d/dz AiryAi(z).</para> /// </summary> /// <param name="z">The value to compute the derivative of the Airy function of.</param> /// <returns>The derivative of the Airy function Ai.</returns> public static Complex AiryAiPrime(Complex z) { return(Amos.CairyPrime(z)); }
/// <summary> /// Derivative of the Airy function Ai. /// <p/> /// If expScaled is true, returns Exp(zta) * d/dz Ai(z), where zta = (2/3) * z * Sqrt(z). /// </summary> /// <param name="z">The value to compute the derivative of the Airy function of.</param> /// <param name="expScaled">If true, returns exponentially-scaled Airy function</param> /// <returns></returns> public static Complex AiryAiPrime(Complex z, bool expScaled = false) { return((expScaled) ? Amos.ScaledCairyPrime(z) : Amos.CairyPrime(z)); }