Add to ORKGIn this paper, the differential calculus was used to obtain some classes of ordinary differential equations (ODEs) for the probability density function, quantile function, survival function, inverse survival function, hazard function and reversed hazard function of the exponentiated Pareto distribution. The stated necessary conditions required for the existence of the ODEs are consistent with the various parameters that defined the distribution. Solutions of these ODEs by using numerous available methods are new ways of understanding the nature of the probability functions that characterize the distribution. The method can be extended to other probability distributions and can serve as an alternative to approximation
In this paper, the differential calculus was used to obtain some classes of ordinary differential e...
The linear failure rate (hazard) and generalized linear failure rate (hazard) distributions are uniq...
In this paper, differential calculus was used to obtain the ordinary differential equations (ODE) o...
In this paper, the differential calculus was used to obtain some classes of ordinary differential eq...
In this paper, the differential calculus was used to obtain some classes of ordinary differential e...
In this paper, the differential calculus was used to obtain some classes of ordinary differential e...
In this paper, the differential calculus was used to obtain some classes of ordinary differential e...
In this paper, the differential calculus was used to obtain some classes of ordinary differential e...
Lévy distribution is one of few stable distributions. The absence of closed form of some of the prob...
In this paper, differential calculus was used to obtain the ordinary differential equations (ODE) of...
In this paper, the differential calculus was used to obtain some classes of ordinary differential e...
Differential calculus was used to obtain the ordinary differential equations (ODE) of the probabili...
In this paper, the differential calculus was used to obtain some classes of ordinary differential e...
In this paper, the differential calculus (product rule) was used to obtain some classes of ordinary...
In this work, the differential calculus was used to obtain some classes of ordinary differential eq...
In this paper, the differential calculus was used to obtain some classes of ordinary differential e...
The linear failure rate (hazard) and generalized linear failure rate (hazard) distributions are uniq...
In this paper, differential calculus was used to obtain the ordinary differential equations (ODE) o...
In this paper, the differential calculus was used to obtain some classes of ordinary differential eq...
In this paper, the differential calculus was used to obtain some classes of ordinary differential e...
In this paper, the differential calculus was used to obtain some classes of ordinary differential e...
In this paper, the differential calculus was used to obtain some classes of ordinary differential e...
In this paper, the differential calculus was used to obtain some classes of ordinary differential e...
Lévy distribution is one of few stable distributions. The absence of closed form of some of the prob...
In this paper, differential calculus was used to obtain the ordinary differential equations (ODE) of...
In this paper, the differential calculus was used to obtain some classes of ordinary differential e...
Differential calculus was used to obtain the ordinary differential equations (ODE) of the probabili...
In this paper, the differential calculus was used to obtain some classes of ordinary differential e...
In this paper, the differential calculus (product rule) was used to obtain some classes of ordinary...
In this work, the differential calculus was used to obtain some classes of ordinary differential eq...
In this paper, the differential calculus was used to obtain some classes of ordinary differential e...
The linear failure rate (hazard) and generalized linear failure rate (hazard) distributions are uniq...
In this paper, differential calculus was used to obtain the ordinary differential equations (ODE) o...