User Manual 4.0 Infinite elliptic cone : Différence entre versions

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==== Implementation ====
 
==== Implementation ====
The InfiniteEllipticCone object in the SIRIUS library implements the [MAT_GEO_InfiniteConeInterface InfiniteCone Interface]. Please refer to the [{{JavaDoc4.0}}/fr/cnes/sirius/patrius/math/geometry/euclidean/threed/InfiniteEllipticCone.html Javadoc] for a complete list of public methods.
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The InfiniteEllipticCone object in the SIRIUS library implements the [[User Manual 4.0 The Infinite Cone Interface|InfiniteCone Interface]]. Please refer to the [{{JavaDoc4.0}}/fr/cnes/sirius/patrius/math/geometry/euclidean/threed/InfiniteEllipticCone.html Javadoc] for a complete list of public methods.
  
 
==== Instantiation ====
 
==== Instantiation ====

Version actuelle en date du 5 avril 2018 à 07:37

Definition

An infinite elliptic cone is a ruled surface that resembles a cone except that its basis is an ellipse. As such, it is also a set of half-lines that start at the common point called apex and describe, in a plan perpendicular to the axis of the cone, an ellipse. It's equation is given hereunder :

[math]\mathcal{C} = \left\{ (x, y, z) \in {R}^3 \middle/ {x^2 \over \tan^2\alpha} + {y^2 \over \tan^2\beta} = 1 \right\}[/math]
EllipticCone.PNG

Implementation

The InfiniteEllipticCone object in the SIRIUS library implements the InfiniteCone Interface. Please refer to the Javadoc for a complete list of public methods.

Instantiation

In order to instantiate an infinite elliptic cone object, the user must specify the cones' "center", its main axis, its axis along which aperture is [math]2*a[/math] and both angles. For example :

// Cones parameters
Vector3D position = new Vector3D(1, 2, 3);
Vector3D axis = new Vector3D(0, 1, 1);
Vector3D axisU = new Vector3D(2,-1, 0);
double alpha = Math.PI / 8;
double beta = Math.PI / 10;
// The cone itself
InfiniteEllipticCone myCone = new InfiniteEllipticCone(position, axis, axisU, alpha, beta);

Usage

Please refer to the [MAT_GEO_Home#HInteractions Interactions with other geometrical objects section] for methods inherited from the Shape interface.