Sketcher ConstrainSnellsLaw/es

Other languages:

Block

Toggle driving/reference constraint

Sketcher

Ubicación en el Menú
Restricción de refracción (Ley de Snell)
Sketch → Restricciones de croquis → Restricción de refracción (Ley de Snell)
Entornos de trabajo
Sketcher
Atajo de teclado por defecto
Ninguno
Introducido en versión
-
Ver también
Ninguno
Contents 1 Description 2 Usage 3 Notes 4 Scripting

Description

The Sketcher ConstrainSnellsLaw tool constrains two lines to follow the law of refraction of light as it penetrates through an interface where two materials with different refraction indices meet. See Snell's law.

Snell's Law

Usage

The sequence of clicks is indicated by yellow arrows with numbers, n1 and n2 show where the indices of refraction are

Prepare two lines to represent a beam of light, and an edge to act as an interface. The lines should be on different sides of the interface. The interface can be a line, an arc, a circle or a conic.
Select an endpoint of the first line, an endpoint of the second line, and the interface edge. Note the selection order of the endpoints.
There are several ways to invoke the tool:
- Select the Sketch → Sketcher constraints → Constrain refraction (Snell's law) option from the menu.
- Use the keyboard shortcut: K then W.
The Refractive index ratio dialog opens.
Enter the Ratio n2/n1. Where n2 is for the medium where the second selected line resides, and n1 is for the first line's medium.
A Snell's law constraint is added. If required the endpoints are made coincident and constrained onto the interface. These additional constraints are called helper constraints.

Notes

The actual Snell's law constraint enforces the plain law equation n1*sin(theta1) = n2*sin(theta2). It needs the line ends to be made coincident and on the interface by other constraints, otherwise the behavior is undefined. The necessary helper constraints are added automatically based on the current coordinates of the elements.
In Python the helper constraints must be added manually (see Scripting).
These helper constraints can be temporarily deleted and the endpoints dragged apart, which can be useful in case one wants to construct a reflected ray or birefringence rays.
Unlike the reality, refraction indices are associated with rays of light, but not according to the sides of the boundary. This is useful to emulate birefringence, construct paths of different wavelengths due to refraction, and easily construct angle of onset of total internal reflection.
Both rays can be on the same side of the interface, satisfying the constraint equation. This is physical nonsense, unless the ratio n2/n1 is 1.0, in which case the constraint emulates a reflection.
Arcs of circle and ellipse are also accepted as rays. But this is also physical nonsense.

Scripting

The constraints can be created from macros and from the Python console by using the following function:

Sketch.addConstraint(Sketcher.Constraint('SnellsLaw',line1,pointpos1,line2,pointpos2,interface,n2byn1))

where:

Sketch is a sketch object
line1 and pointpos1 are two integers identifying the endpoint of the line in medium with refractive index of n1. line1 is the line's index in the sketch (the value, returned by Sketch.addGeometry), and pointpos1 should be 1 for start point and 2 for end point.
line2 and pointpos2 are the indexes specifying the endpoint of the second line (in medium n2)
interface is the index specifying the line indicating the position of the interface between medium n1 and medium n2
n2byn1 is a floating-point number equal to the ratio of refractive indices n2/n1

The Sketcher scripting page explains the values which can be used for line1, pointpos1, line2, pointpos2 and interface and contains further examples on how to create constraints from Python scripts.

Example:

import Sketcher
import Part
import FreeCAD

StartPoint = 1
EndPoint = 2

f = App.activeDocument().addObject("Sketcher::SketchObject","Sketch")

# add geometry to the sketch
icir = f.addGeometry(Part.Circle(App.Vector(-547.612366,227.479736,0),App.Vector(0,0,1),68.161979))
iline1 = f.addGeometry(Part.LineSegment(App.Vector(-667.331726,244.127090,0),App.Vector(-604.284241,269.275238,0)))
iline2 = f.addGeometry(Part.LineSegment(App.Vector(-604.284241,269.275238,0),App.Vector(-490.940491,256.878265,0)))
# add constraints
# helper constraints:
f.addConstraint(Sketcher.Constraint('Coincident',iline1,EndPoint,iline2,StartPoint)) 
f.addConstraint(Sketcher.Constraint('PointOnObject',iline1,EndPoint,icir)) 
# the Snell's law:
f.addConstraint(Sketcher.Constraint('SnellsLaw',iline1,EndPoint,iline2,StartPoint,icir,1.47))

App.ActiveDocument.recompute()

Block

Toggle driving/reference constraint

Sketcher

General: Create sketch, Edit sketch, Attach sketch, Reorient sketch, Validate sketch, Merge sketches, Mirror sketch, Leave sketch, View sketch, View section, Toggle grid, Toggle snap, Configure rendering order, Stop operation

Sketcher geometries: Point, Polyline, Line, Arc, Arc by 3 points, Arc of ellipse, Arc of hyperbola, Arc of parabola, Circle, Circle by 3 points, Ellipse, Ellipse by 3 points, Rectangle, Centered rectangle, Rounded rectangle, Triangle, Square, Pentagon, Hexagon, Heptagon, Octagon, Regular polygon, Slot, Arc slot, B-spline by control points, Periodic B-spline by control points, B-spline by knots, Periodic B-spline by knots, Toggle construction geometry

Sketcher constraints:
- Dimensional constraints: Dimension, Horizontal distance, Vertical distance, Distance, Auto radius/diameter, Radius, Diameter, Angle, Lock
- Geometric constraints: Coincident (unified), Coincident, Point on object, Horizontal/vertical, Horizontal, Vertical, Parallel, Perpendicular, Tangent or collinear, Equal, Symmetric, Block
- Other constraints: Refraction (Snell's law)
- Constraint tools: Toggle driving/reference constraint, Activate/deactivate constraint

Sketcher tools: Fillet, Chamfer, Trim, Split, Extend, External geometry, Carbon copy, Select origin, Select horizontal axis, Select vertical axis, Array transform, Polar transform, Scale transform, Offset geometry, Symmetry, Remove axes alignment, Delete all geometry, Delete all constraints

Sketcher B-spline tools: Convert geometry to B-spline, Increase B-spline degree, Decrease B-spline degree, Increase knot multiplicity, Decrease knot multiplicity, Insert knot, Join curves

Sketcher visual: Select unconstrained DoF, Select associated constraints, Select associated geometry, Select redundant constraints, Select conflicting constraints, Show/hide circular helper for arcs, Show/hide B-spline degree, Show/hide B-spline control polygon, Show/hide B-spline curvature comb, Show/hide B-spline knot multiplicity, Show/hide B-spline control point weight, Show/hide internal geometry, Switch virtual space

Additional: Sketcher Dialog, Preferences, Sketcher scripting

User documentation

Getting started
Installation: Download, Windows, Linux, Mac, Additional components, Docker, AppImage, Ubuntu Snap
Basics: About FreeCAD, Interface, Mouse navigation, Selection methods, Object name, Preferences, Workbenches, Document structure, Properties, Help FreeCAD, Donate

Help: Tutorials, Video tutorials
Workbenches: Std Base, Assembly, BIM, CAM, Draft, FEM, Inspection, Material, Mesh, OpenSCAD, Part, PartDesign, Points, Reverse Engineering, Robot, Sketcher, Spreadsheet, Surface, TechDraw, Test Framework

Addons: Addon Manager, External workbenches, Scripting and macros

Hubs: User hub, Power users hub, Developer hub