Add to ORKGIntegration by parts is a well-known method of integrating product of two functions. If the integrand involves a polynomial of degree n and another function that can be integrated at least (n+1) times, then the solution to is guaranteed after n routine applications of integration by parts method. This paper presents a mathematical model for integrating product of two functions without going through the routine application of integration by parts at each stage of integration, thus saving a lot of computational time. Some examples were considered to illustrate the effectiveness of the model. The model is found to be appropriate as it gives the same result with the well-known integration by parts method
Explains the need for repeated Integration by Parts and applies this method to a simple function
Applies the method of repeated integration by parts to an function containing the product of exponen...
AbstractA hybrid integration algorithm obtaining an indefinite integral of a rational function (say ...
Integration by parts is a well-known method of integrating product of two functions. If the integran...
The scheme already discussed for writing down the reults from integration by parts is applied to cyc...
Abstract: In this paper, we will discuss a new method of integrating certain types of rational func...
A (moderately) fast, (often) useful, and (largely) ignored alternative to integration by parts is in...
A rational function can always be integrated, that is, the integral of such a function is always an ...
Demonstrates integrating an improper rational function, where first long division must be used to re...
This paper starts by settling the computational complexity of the problem of integrating a polynomia...
When a computer algebra system has an assumption facility, it is possible to distinguish between int...
The article discusses various non-traditional methods of integrating rational functions. Using these...
This paper settles the computational complexity of the problem of integrating a polynomial ...
El vídeo presenta un repaso de la regla del producto para dos funciones y su relación con la integra...
AbstractThe use of generalized Hermite-Fejér interpolation polynomials for product integration is st...
Explains the need for repeated Integration by Parts and applies this method to a simple function
Applies the method of repeated integration by parts to an function containing the product of exponen...
AbstractA hybrid integration algorithm obtaining an indefinite integral of a rational function (say ...
Integration by parts is a well-known method of integrating product of two functions. If the integran...
The scheme already discussed for writing down the reults from integration by parts is applied to cyc...
Abstract: In this paper, we will discuss a new method of integrating certain types of rational func...
A (moderately) fast, (often) useful, and (largely) ignored alternative to integration by parts is in...
A rational function can always be integrated, that is, the integral of such a function is always an ...
Demonstrates integrating an improper rational function, where first long division must be used to re...
This paper starts by settling the computational complexity of the problem of integrating a polynomia...
When a computer algebra system has an assumption facility, it is possible to distinguish between int...
The article discusses various non-traditional methods of integrating rational functions. Using these...
This paper settles the computational complexity of the problem of integrating a polynomial ...
El vídeo presenta un repaso de la regla del producto para dos funciones y su relación con la integra...
AbstractThe use of generalized Hermite-Fejér interpolation polynomials for product integration is st...
Explains the need for repeated Integration by Parts and applies this method to a simple function
Applies the method of repeated integration by parts to an function containing the product of exponen...
AbstractA hybrid integration algorithm obtaining an indefinite integral of a rational function (say ...