Modelica.Mechanics.MultiBody.Examples.Elementary.Utilities

Utility classes for elementary multi-body example models

Information

This package contains utility models and functions used by some of the elementary example models from the multi-body package.

Extends from Modelica.Icons.UtilitiesPackage (Icon for utility packages).

Package Content

Name Description
Modelica.Mechanics.MultiBody.Examples.Elementary.Utilities.theoreticalNormalGravityWGS84 theoreticalNormalGravityWGS84 WGS84 normal gravity over earth ellipsoid in negative y-direction
Modelica.Mechanics.MultiBody.Examples.Elementary.Utilities.sineSurface sineSurface Function defining the characteristic of a moving sine in three dimensions

Modelica.Mechanics.MultiBody.Examples.Elementary.Utilities.theoreticalNormalGravityWGS84 Modelica.Mechanics.MultiBody.Examples.Elementary.Utilities.theoreticalNormalGravityWGS84

WGS84 normal gravity over earth ellipsoid in negative y-direction

Information

Function that computes the theoretical gravity of the WGS84 ellipsoid earth model at and close to the earth ellipsoid surface, for the given "geodeticLatitude" and the given "height=r[2]" over the ellipsoid surface.

Extends from Modelica.Mechanics.MultiBody.Interfaces.partialGravityAcceleration (Interface for the gravity function used in the World object).

Inputs

NameDescription
r[3]Position vector from world frame to actual point, resolved in world frame [m]
phiGeodetic latitude [deg]

Outputs

NameDescription
gravity[3]Gravity acceleration at position r, resolved in world frame [m/s2]

Modelica.Mechanics.MultiBody.Examples.Elementary.Utilities.sineSurface Modelica.Mechanics.MultiBody.Examples.Elementary.Utilities.sineSurface

Function defining the characteristic of a moving sine in three dimensions

Information

Function defining the characteristics of a moving sine in three dimensions. This function is used in example Elementary.Surfaces.

Extends from Modelica.Mechanics.MultiBody.Interfaces.partialSurfaceCharacteristic (Interface for a function returning surface characteristics).

Inputs

NameDescription
nuNumber of points in u-Dimension
nvNumber of points in v-Dimension
multiColoredSurface= true: Color is defined for each surface point
x_minMinimum value of x
x_maxMaximum value of x
y_minMinimum value of y
y_maxMaximum value of y
z_minMinimum value of z
z_maxMaximum value of z
wzFactor for angular frequency

Outputs

NameDescription
X[nu, nv][nu,nv] positions of points in x-Direction resolved in surface frame [m]
Y[nu, nv][nu,nv] positions of points in y-Direction resolved in surface frame [m]
Z[nu, nv][nu,nv] positions of points in z-Direction resolved in surface frame [m]
C[if multiColoredSurface then nu else 0, if multiColoredSurface then nv else 0, 3][nu,nv,3] Color array, defining the color for each surface point
Automatically generated Thu Oct 1 16:07:52 2020.