Diferencia entre revisiones de «Tutorial:Deslizándose por la Ley de Snell»

Revisión del 13:39 3 abr 2014

Tutorial: Deslizándose por la Ley de Snell Diseño del Centro Babbage

Para seguir la tutela de este instructivo de Centro Babbage, conviene abrir la pantalla de Ventana GeoGebra y avanzar paso a paso. La propuesta es construir un escenario ilustrativo de la Ley de Snell como el siguiente.

Establecerlo empleando las herramientas que nos ofrece GeoGebra y apelando en particular a la Herramienta de Deslizador para explorar los resultados según diversas relaciones entre los índices de refracción de uno y otro medio.

Mientras se construye este escenario de simulación dinámica, se aprenderá cómo emplear una serie de herramientas, en la siguiente secuencia:

1 Para ilustrar el fenómeno se delinea el límite de la interfaz entre uno y otro medio, llamando C al punto de incidencia, trazando además una perpendicular a tal límite que pasa por C y una circunferencia de radio l.

2 Con la Herramienta de Vector se representa al rayo.

3 Crear el punto F de intersección de la recta del rayo incidente y la circunferencia de radio l y, empleando la Herramienta de Simetría Axial se procede a trazar el rayo reflejado..

4 Trazar la perpendicular al límite entre medios que pasa por el punto F y establecer la relación de valores entre sendos índices de refracción de uno y otro medio. Para hacerlo de modo simple, se crea un deslizador con un rango de variación entre 0.2 y 35 para poder explorar las situaciones en que n_2 < n_1 y en los que es mayor.

5 Trazar la Circunferencia[C, l razón_{n_2/n_1}] siendo l la longitud elegida para la primera circunferencia y estando n_2 relacionada a n_1 a través del deslizador correspondiente.

6 Trazar los puntos de intersección entre la circunferencia recién creada y la perpendicular f al límite entre medios que pasa por F.

7 El rayo refractado queda determinado por los puntos C y H (siendo H el punto H de intersección, en el medio 2, de la perpendicular f y la segunda circunferencia).

8 Con la Herramienta de Ángulo se señalan los de incidencia y refracciíón así como el de desviación, como se ilustra en la figura.

9 Explorar el comportamiento del fenómeno simulado geométrica y esquemáticamente..

Ilustrando el Modelo de Polarización

Esta simulación procura ilustrar el modelo del fenómeno de polarización.

<ggb_applet width="412" height="312" version="4.4" ggbBase64="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"

Un filtro de polarización tiene un eje particular de transmisión y solo se admite la alineación y el paso de las ondas de luz con tal eje. En esta simulación, las ondas no polarizadas pasan a través del polarizador vertical, permaneciendo solo sus componentes verticales. Esta onda transversa vertical se aproxima al polarizador vertical. Si el polarizador se rota, solo un componente de la onda puede atravesarlo. Si se lo rota 90 grados, la onda se detiene completamente. Tildando las casillas, se pueden intercalar de uno a tres polarizadores para notar qué sucede, incluso modificando los correspondientes ángulos. Para iniciar la animación, se debe recurrir al deslizador inferior izquierdo..

@@ Línea 5: / Línea 5: @@
 La propuesta es  construir un escenario ilustrativo de la Ley de Snell como el siguiente.
 <center><ggb_applet width="460" height="440"  version="4.4" ggbBase64="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" /> </center>
 Establecerlo empleando las herramientas que nos ofrece GeoGebra y apelando en particular  a la [[Herramienta de Deslizador]] para explorar los resultados según diversas relaciones entre los índices de refracción de uno y otro medio.
 ;
 Mientras se construye este escenario de simulación dinámica, se aprenderá cómo emplear una serie de herramientas, en la siguiente secuencia:
@@ Línea 13: / Línea 13: @@
 '''[[File:Prepara_Snell_2.PNG |180px|thumb|center]]'''
 {{step|num=2}} Con la [[Herramienta de Vector]] se representa al rayo.
 '''[[File:Prepara_Snell_3.PNG |400px|thumb|center]]'''
 {{step|num=3}} Crear el punto F de intersección de la recta del rayo incidente y la circunferencia de radio l y, empleando la [[Herramienta de Simetría Axial]] se procede a trazar el rayo reflejado..
 '''[[File:Prepara_Snell_4.PNG |400px|thumb|center]]'''
@@ Línea 49: / Línea 49: @@
 ====Ilustrando el Modelo de Polarización ====
 Esta simulación procura ilustrar el modelo del fenómeno de polarización.
-<center><ggb_applet width="538" height="462"  version="4.4" ggbBase64="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" </center>
+<center><ggb_applet width="412" height="312"  version="4.4" ggbBase64="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" </center>
 Un filtro de polarización tiene un eje particular de transmisión y solo se admite la alineación y el paso de las ondas de luz con tal eje.
 En esta simulación, las ondas no polarizadas pasan a través del polarizador vertical, permaneciendo solo sus componentes verticales.
@@ Línea 58: / Línea 58: @@
 [[Category:Tutoriales de Diseño]]