15091 Experiment Pack - Wave Optics - info

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15091 Experiment Pack - Wave Optics - info

 

STE 15091 Experiment Pack - Wave Optics

 

INTRODUCTION

This advanced Experiment Pack covers optics topics through to A level. It comes with an extremely helpful, fact filled 32 page Instructions and Teaching Guide to assist in setting up and teaching 12 wave optics experiments including interference, diffraction and polarisation using white light and monochromatic laser light. The optical bench and lenses can also be used for basic geometrical optics experiments.

 

TOPICS COVERED

  1. Optical waves
  2. Dioptrical projector
  3. Diode laser
  4. The speed of optical wave fronts
  5. Polychromatic and monochromatic sources
  6. Emission spectra
  7. The diffraction of light
  8. Diffraction through a hole
  9. Diffraction through a slit
  10. How to measure the wavelength
  11. Light interference
  12. Young’s interference experiment
  13. How to measure the wavelength
  14. The diffraction grating
  15. Linear polarization
  16. Polarised light
  17. Polarisation through reflection
  18. Brewster’s angle

EQUIPMENT

Qty

Description

02

Conical stand

01

Ruler

01

Dioptrical projector

01

Cylindrical lens

01

Transformer

02

Diaphragm holder

03

Coloured filters

01

Optical bench

01

Dark mirror

01

Lens holder

03

Set of 3 lenses

01

White screen

01

Spectroscopic kit

01

Diode laser

01

Adjustable slit

01

Diaphragm hole 2 1 mm

01

Diaphragm hole 0.4 mm

01

Diaphragm hole 0.2 mm

01

Diaphragm slit 0.1 mm

01

Diaphragm double slit

01

Diffraction grating 80 lines/mm

02

Polarising filters

01

Optical prism

01

Horizontal protractor

01

Instructions and Teaching Guide

 

EXAMPLE EXPERIMENT

(all worksheets have necessary diagrams) 

14) The diffraction grating

It is possible to obtain more evident fringes than with Young’s apparatus by using diffraction gratings which are made of many parallel slits (figure 31).

  

The directions of the diffracted rays where intensity maximums are found, expressed by the angles αk with respect to the grating’s normal, can be determined from the distance p between any two consecutive slits (the step of the grating) and the wavelength of  radiation:

 

P sin αk = k λ              (k=0, 1, 2, …)

 

The wavelength can be derived when distance d from two consecutive intensity maxima(corresponding, for example, to k=0 and k=1) is measured, using the following relation (figure 32)

λ= P. d/D

where D is the distance from the grating to the screen.

 

Experiment 9

 

Equipment:

01

Optical bench

01

Conical stand

01

Diode laser

01

Grating 80 lines/mm

01

White screen

01

Diaphragm holder

 

Step 1:

Set up the apparatus as shown in figure 33, paying attention to distances as indicated.

 

Step 2:

Switch on the laser. A central bright spot appears and, laterally and symmetrically, a sequence of diffraction spots with large gaps between them.

 

Step 3:

Measure the distance between the central spot (maximum of intensity) and the first lateral maximum and calculate wavelength λ. The value of   p = 1/80 mm.

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