HANDSON OPTICS TRAINNING COURSE KIT of INTRODUCTION
Contents
1. ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual Now use the multifibre cable of 2 metres Can you see any image with this cable Why is it so Now you are going to prepare your own image guide Cut the fibres of 0 5mm in diameter into little pieces of about 3centimetres Don t forget that you must cut by holding the blade perpendicularly to the fibre When you have finished join the pieces into a bundle but be careful not to twist them and to keep them well lined and in their order for example the third fibre from the right at the bottom will also be the third one from the right at the top Put them inside the black tube of about 10mm in diameter Now hold the fibres in their tube over the table top vertically With the hairdryer heat the tube on every side The tube will shrink and in the end it will firmly hold the fibres in their correct place Now you have to polish both sides of your guide of waves you can see that you still don t have he image guide Proceed with the work but use a very thin file or a sandpaper n0 200 instead to eliminate the biggest irregularities certainly you haven t been able to cut all fibres exactly the same size Your image guide is ready Check the quality of your work 36 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual EXPERIMENT NO 8 Inverting or Altering images 1 hour GOALS To mani2. are the ones The ones used in the new phone lines cable television super fast internet And it is looking for them that we are going now Since it is a long and dangerous journey we need an initial energy that will give us the strength we need One or two of those magical packages a glass of hot water a rectangular shape and in a minute or almost we get a delicious jelly If you ask me I d rather a pineapple one but to please everyone let it be tutti frutti And as when it comes to Science there can t be enough sacrifices and an extra sweet from year to year will not be a sin let us triple the recommended dosage of powder jelly We will have a more consistent jelly the kind of jelly that will not melt in our hands and looks more like gum mnhammm Science with consistency 15 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual Well while we are waiting for the jelly to get cool and solid let s make a few experiments Fill a transparent vessel about half of it with water now get a flashlight with a laser beam is better But pay attention because lasers can be dangerous Never look straight to the exit of the laser nor point it to your colleagues eyes You may get blind Point from above the light beam that comes out of the flashlight or laser This last one is thinner and more visible inside the water What happens when the light
3. can also be used to transmit images 30 8 Inverting or altering images 31 9 Building a beam of optical fibres 35 10 Joining fibres and lenses 37 11 Shining fibres 40 12 Using light to communicate 41 13 Converting light into sound converting sound into light a simple system of sound communication through optical fibres 43 14 Assembly and study of a simple telecommunications prototype transmission and reception of an electrical codified signal by an optical fibre cable 45 LIST OF MATERIALS 1 An experiments guide compartment C6 2 Teacher s manual C6 3 A set of transparencies C6 12 HANDS ON OPTICS TRAINNING COURSE 2 cet ey ee R 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual A CDROM C6 A flashlight with a black rubber coupling C1 A laser pointer C1 Two Perspex cylinders C1 An optical fibre stripper C1 A pair of tweezers C1 A pair of cutting pliers C1 A pair of scissors C1 A retractable blade C1 A glass cutter C1 A mono microscope 100x C1 A sample of a telecommunications cable C1 An acrylic rod of 3 mm of diameter and 30 cm of length A set of 5 shining fibres at different colours A waveguide plan C2 A Ulexite crystal C2 A Calcite crystal C2 A Perspex plate 2 5 x 2 5 cm C2
4. passes inside the water Now you can incline the light beam and see what happens Now point the laser from toe to top in such a way that the light gets in through the bottom or the side of the vessel gets through the water and comes outside be very careful with your eyes Can you see the light beams coming out of the water to the air above Can you see anything else Slowly incline the laser a bit more What is happening At a certain point where is the light beam that came out of the water It is as if the separation surface between the water and the air works like a mirror And Can you believe it This effect is the basis of the functioning of the guides of light and of optical fibres It is called total reflection phenomenon or total internal reflection phenomenon Now get the rectangular plate made of transparent acrylic Get the light beam in the plate with a short inclination about 30 with the horizontal by the minor side With the room well darkened see what happens to the light beam inside the plate Try it also with the cylindrical tubes 16 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual Well we could continue and try the glass plate but it is time to go for the jelly Cut in a straight line some long and thin strips of jelly 2 to 5cm thick Hold a strip and point the flashlight slightly inclined downwards on one of the sides the basis of
5. reach the speaker they are converted into an electrical signal again You will now use and see hoe a simple communication system by optical fibre works 50 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual Get the transmitter Identify the microphone See the electronic components that it is made of and discover the light transmitter blue piece Pressing the switch you will turn on the transmitter when you release it will switch off again Look at the inside of the blue piece where the source of light s LED Put the infrared detection card in front of the LED Can you see anything yet Press the switch and give short blows on the microphone with a pencil the goal is to produce a strong sound close to the microphone You may use other processes Meanwhile look at the card What do you see Get the receiver Identify the speaker the electronic and the light detector photodetector kept in a black capsule Spin the receiver to switch it on You will start hearing a certain noise Increase the volume a bit more Cover the capsule of the photodetector What happens to what you are hearing Turn the photodetector to the window and then to the flashlight Move your hand several times between the flashlight and the photodetector Describe what you are seeing Now point the photodetector to the light bulb on the ceiling of the room Can you explain what you are observing hearing P
6. scenarios always in an active and committed way Pupils should observe discuss express and criticise their own conclusions and establish decide what to do next whenever possible To increase the specific knowledge of the pupils is important SCIENCE demands work responsibility and METHOD it is precisely in this sense that the teacher s first effort should focus itself The exposition to the knowledge or the access to its sources is not enough for learning to occur It is also needed for the different agents in the teaching system to understand that it is necessary to have time to teach And give pupils time for them to question themselves to amaze themselves to feel and discover and define by themselves the problems and situations to explain through observation critiques and by building their own knowledge making SCIENCE 10 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual Experiment s Guide EXPERIMENTS 11 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual 1 Guiding the light page 15 2 An introduction to optical fibres 18 3 Some mechanical characteristics of optical fibres 21 4 How to prepare optical fibres Cut and polish 23 5 How to establish connections amongst fibres 25 6 Some optical special effects with optical fibres 28 7 Optical fibres and guides of wave length
7. the rod Register everything that you saw and highlight what seemed more interesting 2 Darken the room where you are working 2 a Turn the flashlight on and point it to a target sheet of paper wall at about 20cm Observe the spot circular that is forming Write down everything you are observing diameter shine 19 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual 2 b Now enter the rod into the hole of the rubber groove in the exit of the flashlight Observe the light that comes out from the other side of the rod Hold the flashlight by placing the tip of the rod at about 20cm from the target Register what you are seeing Compare it to what you had observed before you entered the rod 2 c Approach the rod towards the target and see how the size of the spot of light varies 2 d With the rod pointing to the target hold it with the other hand in such a way that the palm of your hand touches the widest area possible of the rod What do you see Take the rod out of the flashlight With the help of an alcohol nightlight and with extreme care so that you don t hurt yourself you are going to bend the rod into the shape of an U Hold the rod by its ends use gloves or cloths for protection and get it close to the flame Move the rod around so that the 10cm of its centre are uniformly heated When you feel that area starts to become flexible withdraw it from the pro
8. the strip of jelly What do you see Where does the light come out Replace the flashlight by the laser pointer Now the track of the light is well seen Make a scheme by drawing the laser the strip of jelly and the light beam you observe Now go on by altering the inclination of the laser beam that gets in the strip of jelly and observe its track inside the strip of jelly If you incline the laser too much at a certain point the light will come out through one of the lateral walls of the strip of jelly and not through the other end When that happens it probably means that the inclination of the laser beam with the internal wall of the strip hasn t been enough for total reflection to occur and so the light runs away It s time for a snack But if you wish you can still have some fun For example gather a second strip of the jelly to the point of your fibre The light goes from one strip to the other Fill a transparent plastic bottle with water On the side near the bottom of the bottle make a small sign You are going to make a small hole there So get a container to get the water that is coming out of the bottle Ask a colleague of yours to point the laser beam more or less horizontally to the sign With a middle nail make a hole of about half centimetre in diameter Darken the room look at the container where you are going to get the water and let the string of water come out of the hole What do you see Look now
9. to the string of water What do you think is going to happen Well I ll let you with the imagination area and Have fun 17 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual EXPERIMENT NO 2 An introduction to optical fibres Lh 30m GOALS 18 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual Transmission of light in a cylindrical rigid guide of light even though it is folded Transmission of intensity and colour Losses of light through lateral walls The modern fibres the nucleus and the shell and its special function MATERIALS Flashlight 5 acrylic rod of 3mm in diameter 16 optical fibre of 2 mm of diameter 25 optical fibres 38 40 51 several cards and cellophane of different colours 48 an alcohol nightlight or Bunsen s burner a cloth or protection gloves a container filled with water EXECUTION AND REGISTRATION Get the acrylic rod and get one of its ends close to your eyes not too much so that you don t hurt yourself 20 to 25cm will be fine point the other end to a source of light a bulb in the ceiling through the window PAY ATTENTION NEVER look straight to the sun So choose another source of light Now get the rod close some millimetres to a sheet from a book and move it over the printed letters Now point towards the coloured cards or place the coloured cellophane in front of
10. you think you already know that you have to darken the room 3 If you wish to get an even more decorative effect sprinkle the fibres on the side where they are loose with talcum powder Have you got any suggestion to make the decorative effect even more interesting Recall some of the things you have learnt before 40 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual Withdraw the rubber capsule of the flashlight Cut three or four pieces of cellophane of different colours and put them inside the rubber capsule of the flashlight Encase it again without getting it too tight so that the pieces of cellophane can move inside of it Switch on the flashlight and shake it What do you think Divide the fibres from the side where they are loose in two similar bundles Put on a bit of black tube in each end to which we are going to call A and B the other side you had prepared before will be C Put side A in the flashlight Put side C over this sheet for example and observe through side B darken the room You can also repeat this experiment with the three fibre cable that was given to you What do you see Now exchange A by B and vice versa What do you conclude In the Kit there is a sample of a cable of optical fibres used in telecommunications network Observe it and describe it through a cable like this over one million phone calls can be carried 41 HA
11. 8 Principles of optical fiber measurements D Marcuse Academic Press 19 Planar optical waveguides and fibers H G Unger Claredon Press 55
12. A lens C2 A glass sphere C2 A cylindrical guide of images of 5cm C2 A cylindrical guide of images of 2cm C2 1 m of glass fibre of 1mm with a transparent plastic coating C2 A sample 10cm of plastic fibre with stripped and polished tips A card of detection of infrared radiation C2 Components for the assembly of an optical fibre transmitter receiver C2 A printed circuit 1m of optical fibre C3 A push on switch C3 An infrared LED C3 Photodiode C3 An optical connected fibre cable orange patch cord C3 An optical fibre cable for the application of connectors grey colour C3 A basis of polish C3 13 HANDS ON OPTICS TRAINNING COURSE 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual A handcrafted cable of three coated 1 mm fibres C3 3 coloured plastic optical fibres of 0 5 mm of diameter and 30 cm of length C4 A coated optical fibre of 2 2 mm of diameter and 75 cm of length C4 2 meters of 1mm plastic fibre with a black polyurethane coating C4 1 5 meters of cable green colour with 32 plastic fibres of 0 025mm C4 A telecommunications receiver and transmitter voice by optical fibre 2m of fibre C4 A bundle of plastic fibres of 0 5 mm for decorative usage C4 a bundle of loose fibres of 0 25mm for building cables C4 3 hallow fastening rubber tubes of 10 5 4 white and 3mm of diam
13. HANDS ON OPTICS TRAINNING COURSE OF anys on Scj nce KIT of INTRODUCTION to OPTICAL FIBRES and TELECOMMUNICATIONS HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual TEACHER S INTRODUCTOR Y MANUAL The improvement of the teaching quality through the development and application of innovative approaches including the appeal to emergent information technologies and active and participated experimenting techniques has been a fully assumed priority these last years by all the teaching agents in Portugal In spite of the recent evolution a lot of work is yet necessary in order to reach the teaching quality level that the country deserves and lacks The evolution of the present technological reality demands the conception and production of new material and pedagogical equipments that allow a permanent and effective updating of the luggage of knowledge aptitudes and key competences of our youngsters and pupils In this perspective the development of a kit for the introduction to the experimental study of the problematic of waveguides optical fibres and telecommunications seemed fundamental in view of the scene of almost absolute absence as far as we know of such kind of materials HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual 1 Introduction and Justification In our day s society fairly called information society telec
14. MMUNICATIONS Teacher s Manual it among your fingers Don t forget to wrap in a cloth around the tube so that you don t hurt byourself Now proceed as in work 4 to polish the end of the tube you have just cut Put the tube with the widest side downwards over this text and observe the image that comes out from the thinner end Invert the image guide inverted and observe the image that comes out from the wider side What do you conclude EXPERIMENT NO 9 Building a beam of optical fibres 1 h 30m GOALS Optics can be fun MATERIALS 39 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual Flashlight 5 laser 6 optical fibres of 0 25mm in diameter 1m in length 46 black tube 6cm 45 cable with three fibres 37 sample of telecommunications cable 15 coloured cellophane hairdryer talcum powder EXECUTION AND REGISTRATION In order to prepare a beam of optical fibres you will proceed as you have done in 4 of experiment no 7 when you built an image guide You will now use the fibres of 0 25mm about 50 cut into pieces of about 30cm you won t need to polish the fibres and you must place the black tube in the area of one of the ends of the fibres beam Don t heat the black tube too much because these are plastic fibres and they may melt Place the beam of fibres on the side coated by the black tube in the exit of the flashlight What do
15. NDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual EXPERIMENT NO 10 Joining fibres and lenses 1 h 30m GOALS To use lenses associated with fibres and image guides for several usages 42 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual MATERIALS Lens of 2 5cm in diameter 22 a piece of ulexite 19 guide of images 18 plastic plate 21 optical fibre of 2mm in diameter 40 plastic sheet the guides of image that you built in experiment 7 EXECUTION AND REGISTRATION Place the fibre of 2mm in diameter in the flashlight Switch on the flashlight and put the other end at about 10cm from the sheet of paper on the table Observe the lighted spot on the paper Put the lens about 2cm in front of the lens What changed in the lighted spot over the paper Put this written sheet of paper or any other object in a vertical position and light it well Put your guide of images lean to the sheet over a letter for example Get a white sheet close to the exit of the guide of waves or ask a colleague to do it for you you must be careful in order not to project shadow on the written sheet Can you see the image of the letter on the white sheet Place the lens between the exit of the guide of images and the white sheet of paper Slowly put the sheet of paper away and dislocate the lens back and forth At a certain point you will be able to proj
16. TION AND REGISTRATION Hold the several glittering fibres that are given to you Observe them carefully say what you saw and try to explain how they work Cover completely the lateral wall of the fibres Point one end to the light and observe the other Uncover the fibre Cover one of the ends of the fibre and observe the other Point the flashlight to the lateral wall of the fibre Observe the end of the fibre that is uncovered 4 What do you conclude from what you have seen 46 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual EXPERIMENT NO 12 Using the light to communicate 1 hour GOALS To make a brief introduction to the telecommunications by optical fibre approaching the problem of the information codification MATERIALS 47 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual Coated fibre of 1mm 40 led 32 interrupter 31 100 resistance and battery 29 electrical wires and mini tweezers 55 plane iron EXECUTION AND REGISTRATION Using the given material assemble the schematized electrical circuit in the image if you have some practise use the plane iron to assemble the circuit otherwise you can use the mini tweezers that were given to you Each time you press the interrupter the led will emit a red light and will continue lit as long as you press the interrupter How to communicate by using th
17. TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual 5 Characterisation of the materials to be developed The equipment consists of a structured and integrated set of optical fibres and waveguides as well as other optical electrical and optical electrical components supported on an accessible user s manual on paper and with transparencies for the teachers educators also digitally available through multimedia interactive text organised in such a way that they allow the accomplishment of a set of attractive simple formative experiments which grow in complexity and that will allow a good introductory approach to these themes The kit is structured so that it allows the execution of a wide range of experiments distributed in 14 drills It begins with the observation of the guiding of light in solid means glass blocks tubes and liquids string of water that falls out of the tap eventually in guides made in edible jelly for kindergarten and elementary school pupils moving on to the optical fibres of different kinds always in plastic or strongly protected to prevent accidents including shining fibres remote lighting and image manipulation fibre cables usage in screens and in the building of simple scanners preparation of fibres and cables the study of light propagation in fibres of different types and with several conditionings the study of sources of light and detectors introduction to the communication b
18. cable Don t forget to check the quality of your work 25 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual EXPERIMENT NO 5 How to establish connections amongst fibres The connectors 3hours GOALS To make a first approach to the problem of the connection amongst optical fibres and highlight the importance and practical difficulty of its accomplishment A fibre used in telecommunications will be connected to a ST commercial connector that will afterwards be joined to a commercial patchcord 26 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual MATERIALS Optical fibre 1m in length grey 35 patchcord 34 St connector 51 ST coupling 52 mono microscope 100x 14 epoxy glue 54 optical fibre lancet defoliator 8 tweezers 9 set of sandpapers 46 guide basis of polish 36 cutting pliers 10 a pair of scissors 11 flashlight 5 laser pointer 6 water EXECUTION AND REGISTRATION Has you have already noticed getting light inside a fibre is not especially easy due to its small diameter The used fibres in telecommunications have yet a smaller dimension The diameter of the interior area nucleus from where the light is propagated is just a few thousand parts of millimetres In the case of the fibre that is given to you the diameter is a bit bigger 62 5um Even so try to get light in the fibre by approaching
19. ciences in the pupils day by day 3 Methodology In order to achieve our goals we have tried by recurring to equipments as simple and as inexpensive as possible to project and build an integrated and coherent set of materials and equipments which enable the execution of experimental activities and simple and attractive demonstration experiments for the pupils in the domain of the Optical Fibres and Telecommunications The kit of low relative cost is structured in a scheme of increasing complexity and is organised in 14 coherently chained experiments The protocols intend to be essentially simple and formative guiding the pupil or the group in the accomplishment of a work in which their personal commitment is a fundamental point There will be a constant appeal to the critical registration of the observations which are carried out In due time in the protocols attention will be drawn to one or another situation that should be more carefully observed and critically HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual analysed The teacher or the monitor should accompany as transparently as possible the unfolding of the experiments and raise some informative and formative questions as often as possible by taking advantage of the observations questions or comments made by the pupils It is suggested that the pupils should be allowed to establish the way of execution and interpretation of some e
20. ct it to the entrance of your transmitter don t forget to connect the transmitter to the receiver using the given optical fibre Observe in the oscilloscope the exit signal receiver and compare it to the one you have right at the exit of the source of signal Recall the previous work here you just don t have the conversion of soud into an electrical signal and vice versa Try other electrical signals on other ways amplitudes and frequencies 53 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual In telecommunications the signals are a bit more complicated but the process is the same Besides if you want to study some more it is not that hard to get some fun and rea signals You can also use your imagination and have fun ahead of you there is a world full of huge possibilities be patient and keep going enjoy Bibliography L Manuel F M Costa Introduction to optical fibres and telecommunications Communications book from the conference in Experimental teaching in Physics Braga April 2000 to be published 2000 Manuel F M Costa The importance of experimentation on teaching the basics f optics at elementary and high schools Proc Soc Photo Opt Instrum Eng 2525 357 361 1997 Manuel F M Costa Teaching Applied Optics at the University of Minho Proc Soc Photo Opt Instrum Eng 2525 357 361 1995 Man
21. cteristics of optical fibres lhour GOALS 21 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual To check the resistance and flexibility of optical fibres with or without protection coating Cares one must have when working with them MATERIALS Flashlight 6 optical fibre of 2mm in diameter 26 coated optical fibre of 2 2mm in diameter 37 retractable blade 12 container with water hammer EXECUTION AND REGISTRATION The optical fibre that you have used in your last experiment is made of a central nucleus from where it sends on most of the light that goes through the fibre coated by a shell also transparent but optically less thick than the nucleus and that is also its protection nevertheless that protection to the propagation of light in the fibre is not the only one that is needed 1 a Hold the tip of the 2mm fibre and scrape a bit of the shell with the knife be careful with the accidents You don t have to use a lot of strength On the contrary you just have to scrape a bit of fibre onto a concrete floor Connect the fibre to the flashlight What do you see Don t forget to darken the room Something like that will also happen if you give a short blow on the fibre with the hammer or if you fold the fibre a lot Applying an exterior coating for mechanical and environmental protection of the fibre is extremely useful and grants optical fibres such flexibility and re
22. e light emitted by the led In a simple way we can for example say everything is O K if the light is off and that you need help if the light is on If your partner the receiver is aware of that code he can go to your rescue whenever he she sees the light on There are more sophisticated ways of codifying the information but there is one that you have certainly heard of the Morse code in which each letter of the alphabet is codified as a sequence of short or long signals For example if you want to ask for help you can use the SOS signal The S word is represented by a sequence of short signals and the O by three long signals So if you press three times quickly three more slowly keeping the interrupter pressed for a longer period of time and in the end three fast ones the person who sees the sequence of light off and on and knows Morse will understand the message and will come to your rescue If you wish to experiment other words or even to create your own code 48 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual Well but what if you want to send a message to a colleague which nobody else understands if nobody else knows the code or if he she is another room Put the optical fibre in the exit of the led The light will come out by the other end and only there will it be seen EXPERIMENT NO 13 Converting light into sound converting sound into light A sim
23. e present development verified in this area which has nowadays such an overwhelming importance in our lives is only possible through its usage As an example we can say that an optical fibre cable with 5mm in diameter replaces a 7 5cm copper cable is 25 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual times lighter and lasts 2 to 4 times more and the cables can be much longer 20 km even 40 km than the copper ones which demand repeating devices every km Nevertheless the optical fibre cable is much more expensive 100x 0 10 meter we are talking about pure glass a km of this glass is as transparent as the glass Smm of a normal window and it is also sensitive to cosmic radiation But a normal phone line 2 wires allows the transmission of 24 simultaneous phone calls With a pair of fibres 24000 or even up to 150000 simultaneous communications can be transmitted The gains in transmission capacity are even more noticeable in TV signals transmissions While the UHF modelling allows the transmission of 10 channels a system of transmission by optical fibre cable makes this number raise to 100000 channels Transmission capacities of digital signals of up to 200 Tbit s km 2x1014 are already achieved The search for fibres has increased to a rhythm superior to 10 per year In 93 the area of local telecommunications was responsible for half of the search The application in long dista
24. ect on the paper reasonably clear image of the letter you have chosen 43 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual Describe that image Get close to a window don t forget to keep the room as dark as possible under these conditions with your back to it On one hand hold a sheet of white paper ad on the other the lens Hold the lens at about 4 to 5 centimetres from the paper in such a way that you can see an inverted image projected on it Turn to the window Hold the lens at about half a meter from your eyes and look through it outside Pay attention don t point towards the sun What do you see With the other hand place the transparent plastic plate between the lens and your eyes What do you see now Replace the plastic plate through the guide of images placed at about 4 to 5cm from the lens And now what do you see Can you see anything on the side on the guide of waves Can you explain what you have been observing 44 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual EXPERIMENT NO 11 Glittering fibres 1 hour GOALS To study the glittering guides of wave in which the light is generated inside the fibre MATERIALS 45 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual Flashlight 5 several glittering fibres 17 opaque cloth or aluminium foil EXECU
25. eter C4 2 sets of sandpaper no 600 1000 1500 and of 3 microns C4 2 white belts C4 3 coloured plastics C4 2 metal springs C4 A glass plate of parallel sides C4 A metallic connector type ST C4 A coupling of ST type connectors C5 2 meters of multifibre cable C5 An epoxy glue C5 Electrical cables and mini tweezers C1 EXPERIMENT NO 1 Guiding the light You already know that if you want to light an object that is far from you it is very easy you get a flashlight point towards the object and it s done 14 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual Unless there is an obstacle in between If that happens things get complicated you move the flashlight you try to make the light pass through which stubbornly keeps its straight line aside from the obstacle but it isn t always possible What to do Give up Never Well let s set our hands to it A pair of well placed mirrors the light goes around the obstacle and things work out The worst thing is if there are several obstacles Let there be mirrors and patience and so we guide the light to its destiny Well patience is something we can always get but mirrors There must be a better solution after all we are a step away of the third millennium And there is the solution are the famous and celebrated optical fibres Yes Those
26. imental practice the pupils acquisition of the competences and elemental practices in a top domain as are Optical Fibres and telecommunications to contribute to the establishment development of pedagogical practices in the active teaching of Sciences through experimental practice and to the updating of the HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual teacher s knowledge in the specific domain for waveguides optical fibres and telecommunications but also in the fundamental aspects of the Optics to complement and contribute to a better education in the mentioned domains of the pupils in the classes of Sciences Physics and Chemistry and Physics since elementary school until the end of secondary school To sensitise motivate the pupils to the study of Physics and Chemistry Sciences To induce the development of the employment of the experimental execution as a fundamental tool in the learning of sciences To familiarise the pupils with the scientific method developing the critical spirit and the ability of observation as essential tools of all the activity related with science to incentive creativity to incentive the active and increasingly autonomous commitment of the pupils in the critical analysis of problems and simple situations in the domains of Sciences and Technology and finally to induce the acknowledgment of the usefulness of learning physics and chemistry s
27. ing part of the cut 3 to 4 centimetres from the end of the acrylic rod Recall what you have done in the beginning of work no 2 and get the piece of acrylic you have cut over this text Enter the little tube in the flashlight and point towards the wall What do you think Observe the top of the acrylic tube that you have just cut The surface is irregular In order for it to be used we need to polish it Get sandpaper no 600 and wet it with some water Place the acrylic tube in a perpendicular way over the sandpaper and start the polish by making a movement wide in an eight shape Repeat this process several times in a continuous movement about 10 to 15 rounds should be enough and keep the tube in a vertical way Withdraw the tube get some water in its end to remove the sandpaper dust and see if the biggest irregularities have been removed Now you have to repeat the process but with sandpaper no 1000 no 1500 and afterwards with the pink sandpaper If you were careful and patient you would have accomplished a well polished surface and the acrylic tube over the written paper you will have even better results than the ones you have had in work no 2 Let us now work with the optical fibre The process is in its whole identical to the previous one but now in order to cut the fibre you d better use a well knife or blade 24 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual ins
28. nce communications transoceanic submarine cables increased a lot over the last years nevertheless in the next years it will be cable television CATV the main application of optical fibres The world market of optical fibres moves about 12000 million euros with a growth superior to 10 per year Amongst the advantages of the usage of optical fibres we stress out low losses in transmission immunity to noises and electromagnetic interference highly elevated bandwidth huge amount of information has nowadays to be transmitted security in the transmission of the information they are made of isolating material they have a reduced diameter and low weight it has high flexibility when coated and resistance to temperature and chemical agents and low relative cost As for the drawbacks we have the fragility of the non coated fibres the difficulty in executing derivations the difficulty in the establishment of connections among fibres and other components due to its reduced dimensions and sensitivity to cosmic radiation which degenerates its capacity to transmit light HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual The physics goal is to discover understand and explain the Physical world that surrounds us To observe and look critically is the first and fundamental step in that process To raise questions and problems to analyse critically to foresee and build new situations and
29. nications Nevertheless the basic process is simple and known for a long time It is about the total reflection or total internal reflection if you wish When the light in its course encounters the area of separation dioptometer between two means of different optical properties a part of the light is transmitted refracted and a part of it is reflected When the transition occurs from an optically thicker environment to another one with a lower refraction rate the transmitted light drives away from the normal one to the dioptometer at the point of light incidence Increasing the inclination of the incident light direction in the dioptometer at a certain point the light would come out perpendicular to the normal one to the dioptometer not being transmitted Therefore above a certain limit angle of incidence only reflection will occur total reflection The process is easily visualised in a vessel filled with water and a process of consecutive multiple total reflections as happens in optical fibres in a tube or glass plate or simply in jelly The properties and characteristics of the different kinds of existent optical fibres allow the replacement of conventional materials in a wide range of situations from lighting to decoration several medical applications in operations of art work cleaning among others in a wide range of sensors and in telecommunications In this domain the importance of optical fibres is fundamental and th
30. now Calcite and ulexite are guides of wave that can be found in nature Observe both rocks carefully What do you think these rocks have that makes them so special in order to make the image underneath them be brought up to the upper side Put on this text the two small plates of ke g ass material Which differences can you find in the effects of both plates 34 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual One of them the one we call image guide is just a piece of acrylic and the other one is formed by thousands of small optical fibres placed side by side Each fibre brings the light to its little dot of the sheet of paper to another little dot in the other end on the upper surface of the plate Compare the quality of that image to the ones you have observed with the calcite and the ulexite Place the image guide on foot over the paper that is to say over one of the thinnest sides What do you see Were you surprised Lay down the fibre of 2mm in diameter over the text What do you see through it What do you conclude 4 Now get the acrylic image guide and start by polishing both ends Check the quality of the images that you can obtain With a bit of epoxy glue the glass sphere to one of the cylinder ends Use the piece to observe theses letters for example Remember that the sphere works as a kind of lens Establish your conclusion 35 HANDS
31. ommunications carry out in their different features a fundamental role With the huge increase in the amount of information that needs to be exchanged virtually amongst all the points of the globe in real time all the telecommunications systems had to be reformulated in the last decades Optical fibres are the basis of all the modern telecommunications system and it was furthermore its appearance and development that allowed the evolution of telecommunications to the level that we witness today and to what is already fairly foreseen in the future Optical fibres and waveguides constitute therefore nowadays one of the most important domains of Science and Technology A minimum knowledge of this subject is fundamental to our youngsters in the early stages of their education It is also important that the phenomenon of the light propagation in optical fibres or waveguides in general despite the fact of being rather curious and intriguing to the laic and the youngsters are especially keen to the resolution of such strange and advanced HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual enigmas can be explained in a first approach by recurring to a few basic and fundamental rules of the geometric optics Its study can therefore not only be used as a means of sensitising motivating pupils to the study of Physics and Sciences in general but also contribute to the learning
32. one of the flashlight ends and check if the light comes out in the other end The task is not easy And it would be even harder if we had to connect two fibres The lining would have to be perfect One way to do it is using special connectors where fibres are joined together With the microscope observe the connector and the inside of the optical fibre from the orange cable What you are going to do now is to prepare one of those connectors Get the epoxy glue ready Open the two sides of the package Mix the components over a piece of clean plastic well but slowly so that you don t get bubbles in the glue Let it rest for a while Meanwhile 27 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual Get the grey fibre Start by cutting about 3cm of the grey exterior coating with the cutting pliers Use the pair of scissors to cut the Kevlar fibres orange hairs Now peel off about 2 cm of the fibre hem transparent using the given defoliator The process is delicate Place the fibre in the defoliator s groove Make a slight pressing until you hear a click Without pulling spin the fibre 1 4 back and press it smoothly Repeat it in two more positions Withdraw carefully the hem with the pair of tweezers or even with your fingers Remember that the fibre has a small diameter about one tenth of a millimetre and that you mustn t scratch the wall So act carefully and if
33. pared before at about 4 centimetres from the end Keep that little piece of fibre after you have polished the end you cut Cut once again the remaining fibre by the end of it but this time with an inclination of about 45 don t forget that the cut must be done vertically and with a dry blow Observe now how the light comes out from that end of the fibre Roll up twenty or thirty centimetres of fibre around a small tube even a thick pen will work Now heat it uniformly with a hairdryer for about a minute Turn it off and wait 31 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual for it to cool off When you withdraw the tube you verify that the fibre maintains its rolled shape Enter the fibre in the flashlight and verify that now there is some more light coming out by the lateral wall of the fibre With the blade make small superficial cuts on the lateral wall of the fibre For each one of them you will be able to verify that more light comes out by this means you can achieve interesting decorative effects for example if you want to create a line of light scratch the fibre in its length Glue the free end of the fibre use transparent glue for example of silicone to a small piece of well flat aluminium foil Wait for it to dry Now watch the light that comes out by the lateral wall Can you explain the difference concerning what you have seen in 4 6 Using
34. ple system of sound communication by optical fibres 1 h 30m GOALS To verify that in fact optical fibres are used to carry sound 49 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual MATERIALS Set of sound sender receiver 42 infrared detection card 28 2 metres of coated optical fibre of 1 mm in diameter 40 EXECUTION AND REGISTRATION You surely have a quite clear idea of how a telephone works that is to say how the person we are talking to can hear what we are saying so many kilometres away You know that the receiver of your phone has a microphone to where you speak to and a speaker where the sounds you hear are produced The microphone converts the sound sound energy into an electrical signal electrical energy that is carried through an electrical cable to the telephone of the person you are talking to There on the speaker the electrical signal is once again converted into sound Well why do you think I have put in the previous paragraph an exclamation in front of electrical cable You already know that the telephone cables were or are being replaced by optical fibre cables that present huge advantages visit the Kit site But the electrical signals don t diffuse in optical fibres First the electrical signals generated on the microphone have to be converted into a light signal recall the previous experiment And before they
35. process of some fundamental concepts and techniques of Physics in general and of Optics in particular rightfully included in the programmes of the subjects of Natural Sciences Physics and Chemistry and Physics of the elementary and secondary studies The experimental introduction kit concerning optical fibres and Telecommunications that we have developed inserts itself in an experimental approach of the Teaching Learning of Science and Technology whose increment we defend in the different levels of education and which is considered as one of the fundamental innovative strategies for the development of the quality of education The usage of a material of this kind in the different levels of education to which it is aimed at will contribute to a more effective pursuing of the established specific learning goals as well as to the development of the critical spirit and the ability of observation creativity and the active and increasingly autonomous commitment in the critical analysis of problems and situations Moreover it is a factor of motivation and acknowledgement of the usefulness of the learning of the Physics and Chemistry Sciences in our pupils day by day especially in a theme of such transcendent importance 2 Description of the achieved goals In a more systematic way we could enumerate the set of goals to be pursued with these kind of activities to make available a set of basic knowledge and to make possible through exper
36. pulate images by acting on the image guides MATERIALS 37 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual Cylindrical image guide of 5cm in length and 3mm in diameter 24 glass cutter 13 metallic springs 49 an alcohol night lamp or Bunsen s burner a cloth or protection gloves alcohol paper tissue EXECUTION AND REGISTRATION Put a bit of alcohol on a paper tissue and clean the image guide Observe the quality of the images it gives Light the Bunsen s burner Put on a good pair of non combustible gloves and hold the ends of the tube with two metallic springs Place it centred over the flame When it starts to get mole stretch the tube slightly so that it doesn t bend and spin it half round by twitching it slowly and stretching just a little Switch off the burner and wait for it to cool down for about five minutes Put the tube over this text and observe the image How do you explain what you are seeing Carefully repeat the previous process but heat one of the sides and this time don t spin but just stretch a b it more so that that side of the tube gets thinner reduced to about half of the diameter of the other end When it has cooled down use the glass cutter carefully to cut the tube through its thinner area In order to do that all you have to do is draw a line on the glass and break 38 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECO
37. sistance that surpasses that of the copper electrical thread 22 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual 2 a Place one end of the fibre with the black coating in the flashlight and turn it on Roll the fibre in one direction and then on another one with tight turns of 4 or 5cm in diameter and observe the intensity of the light when it come out of the fibre You can even roll a piece around a pencil 2 b Plunge the fibre into water 2 c Give several blows not too strong in the fibre on the table 2 d Make several strong flections on the fibre around its centre 2 e Withdraw the fibre from the lantern Hold the ends of the fibre strongly and stretch it as much as you can as if you were trying to break it Re enter it into the flashlight What is your conclusion EXPERIMENT NO 4 How to prepare optical fibres Cut and polish GOALS To learn how to prepare optical fibres in order to obtain the best results with its usage MATERIALS 23 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual Acrylic rod of 3 mm in diameter optical fibre of 1mm in diameter with black coating 1m in length sample of fibre 27 sandpaper no 600 no 1000 no 1500 46 polish film of 3 microns green 10 retractable blade 12 multifibre cable 52 paper towels water container EXECUTION AND REGISTRATION 1 With the cutt
38. t light in the other end of the patchcord and verify that the light comes out from the free end of the fibre that you have prepared 29 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual EXPERIMENT NO 6 Some optical special effects with optical fibres 2housr GOALS To create some interesting visual effect by slighting altering the optical fibre MATERIALS 30 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual Flashlight 5 laser 6 optical fibre of 2mm in diameter 40 cards and cellophane of various colours 48 retractable blade 12 an alcohol night lamp or a Bunsen s burner or a plane iron a cloth or protection gloves a hairdryer aluminium foil silicone glue EXECUTION AND REGISTRATION Light the night lamp and slowly and carefully get one of the ends of the fibre close to the heat source You should approach the fibre first horizontally and then when you start noticing that the end of the fibre starts melting place the fibre with the end downwards still close to the heat source fore a few seconds Then get it slowly away from the heat and put the end up while you are spinning the fibre with your fingers At the end of the fibre a small bubble will appear Put the other end in the flashlight and observe how the light comes out this time by the other end of the fibre Cut the end of the fibre that you have pre
39. tead of the Put the fibre on a hard surface granite metal carefully put the blade perpendicularly over the fibre Hold it firmly and with a fast and quick pressing cut the fibre Now do what you have done in part 1 to polish the fibre You have certainly noticed that the optical fibre itself is just the central part of glass of about Imm in diameter The black coat the Or buffer as it is usually called is just to protect the fibre and must most times be removed And this is a difficult process The fact is that we have to remove it without damaging the fibres Hold the fibre firmly Get the and choose a position in which the diameter is the same or slightly superior to the diameter of the fibre in this case 1mm Put the fibre in the opening with about lcm and squeeze the strongly but smoothly Turn now the and keep the fibre with your hand Two or three spins will be enough Reduce a bit the strength in the And pull it smoothly to remove the coating Check the condition of the fibre wall If it is too scratched it s because you have chosen wrongly the position of the or because you used too much strength Try again The problem is that if the side wall is scratched some light will come out from there recall work no 3 and not by the end of the fibre as we wish To get some practice and since we are going to need it in the following works you can now polish the two ends of the multifibre
40. the hairdryer in a similar than the one used in 3 you can shape the fibre any way you wish taking advantage of the decorative effect of the light that looses itself through the lateral walls of the fibre 32 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual EXPERIMENT NO 7 Optical fibres and guides of wave can also be used for transmitting images 2h 30m GOALS To verify that in fact optical fibres aren t just used for excluding objects remotely but also for transmitting images to introduce two natural light guides Image guides To build a cylindrical image guide To compare the quality of the images 33 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual MATERIALS A piece of calcite 20 ulexite crystal 19 a square of materials like glass of 25x25 millimetres 21 flat guide of waves 18 a cylindrical guide of images 25 glass sphere 23 epoxy glue 53 10 plastic fibres of 0 5mm in diameter and 1m in length 43 2 5cm of a black coating tube 10mm in diameter 45 2m of multifibre cable 53 hairdryer or plane iron alcohol cut and polish material EXECUTION AND REGISTRATION Get the piece of calcite and get it close to the written text of this sheet of paper What are you seeing through it Lay it down this sheet from several angles and observe Now place the piece of ulexite over the text What do you think
41. uel F M Costa Teaching Applied Optics at the University of Minho Proc Soc Photo Opt Instrum Eng 2525 357 361 1995 AS Prasanis Teaching Optics in the Optics Age Manuel F M Costa Proc Soc Photo Opt Instrum Eng 2525 318 330 1995 Joseph H Schuch Z L Wu Getting students to see the light Proc Soc Photo Opt Instrum Eng 2525 309 315 1995 54 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual 7 M J Nofager Optics curriculum for middle school students Proc Soc Photo Opt Instrum Eng 2525 213 224 1995 amp Gareth Wiliams Laser experiments for the secondary school classroom Proc Soc Photo Opt Instrum Eng 2525 230 246 1995 9 P Narayana Swany Put the real world in the physics curriculum letter Physics Today vol 48 no 9 p 15 1995 10 C Wilder Elementary laser optics Yes Proc Soc Photo Opt Instrum Eng 2525 193 197 1995 11 Robert J Hoss E A Lacy 1993 Fiber Optics Prentice Hall NY 12 Gerd Keiser 1995 Optical fibers communications McGraw Hill London 13 Optical Fibres Technology and projects of systems W Giozza McGraw Hill 14 Optical fibers for transmission J E Midwinter Wiley amp Sons 15 Fiber optics and optoelectronics Peter K Cheo Prentice Hall 16 Fiber optics handbook C Hentschel Hewlett Packard 17 Single mode fibers Luc B Jeunhomme Marcel Dekker Inc 1
42. ut the optical fibre in the capsule of the LED and the other end in the capsule of the photodetector in the receiver You have your system of communication by optical fibres prepared to start communicating using the light 51 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual Have fun EXPERIMENT NO 14 Assembly and study of a simple prototype of telecommunications transmission and reception of a codified electrical signal by optical fibre 2 hours GOALS To assembly a system of sending receiving signals 52 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual MATERIALS Printed circuit 30 resistances condensers bobbins rheostats transistors operational amplifier 31 infrared LED 32 photodiode 33 plastic fibre of 1mm 40 wave generator and oscilloscope EXECUTION AND REGISTRATION Assemble the circuit according to the given schematics If you haven t the experience ask your Electronics teacher at school for help He can also help you get an electrical alternated signal generator and an oscilloscope Adjust with the help of the oscilloscope your source of signal wave generator in such a way that it generates a square wave of Ims of period and 5 volts of amplitude besides the help pf your teachers you can always go to the Kit of optical fibres and telecommunications site or send me an e mail Conne
43. ximity of the flame and bend it into an U quickly Wait a few minutes for the rod to cool off 3 a Enter one of its ends in the flashlight and turn it on Observe the light that comes out from the other end and compare it to what happened before with the right rod 3 b Fill in the container with water and plunge the bended part of the rod into the water deeper and deeper Can you see any difference in the amount of light that is coming out from the other end of the rod Do you recall any situation in this experiment where something similar had occurred 20 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual Now look at the water in the area where you plunged the curved part of the rod Do you see something interesting What do you conclude Now get the 2mm in diameter optical fibre with about 0 5m in length Enter the fibre in the groove of the flashlight and repeat what you have done with the acrylic rod watch the light that comes out of the fibre point it to a target hold a part of it with your hand closed and finally plunge it this fibre is much more flexible than the rod in the water Leave the end in the outside What is the most important thing that has changed when compared to the acrylic rod What distinguishes the optical fibre from the acrylic rod Observe the different optical fibres given and see how they carrythe light EXPERIMENT NO 3 Some mechanical chara
44. xperiments and even inspiring them to project their own experiments Being reasonably complete the execution of all the experiments in the mentioned order will last a considerable amount of time Therefore the kit may be used in consecutive years from the first to the last years being possible to begin in elementary school and extend itself to the end of secondary school The manuals guides that come with the kit were prepared to make the pupils achieve by themselves the wanted fundamental conclusions with little interference from the teachers The comments questions critiques and suggestions of all the teachers and pupils involved will be considered of outmost importance and the greatest attention and regard will be given to them The author will always be available including through the e mail mfcosta fisica uminho pt 4 Target groups The pedagogical equipment developed is aimed at a wide range of pupils being even able to begin at elementary school with practical work no 1 until the end of secondary school Its usage in fairs or scientific exhibitions as well as in associations and Science Clubs and even by parents children educators and individualised youngsters is also proposed The kit intends to really cover all the curriculum demands on this subject and those that will probably be placed in the coming future due to the growing importance that these themes have been having and will still have HANDS ON OPTICS
45. y moulding optical signals setting and using a communication system of straight voice energy conversion sound gt electrical gt lighting gt electrical gt sound concluding with the assembling of a simple system of telecommunication by optical fibre I would stress out again that the author s goal was to prepare an educational material that leads the pupils to discover and not just present them with the information The proposed guides of the practical work are just a suggestion it is up to the educator to check its suitability to the working conditions he she has namely the kind and adaptation of the pupils To make any change easier the teacher will have this material available in computerised editorial support HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual The proposed length for each work is just indicative and it should be adapted to the type and level of the pupils to the specific pedagogical goals as well as to the schedule The kit can be used by isolated pupils even without help nevertheless it is suggested that its usage is done in groups of 2 or 3 pupils 6 A short introduction to optical fibres and its usage in telecommunications Light propagation and electromagnetic radiation in waveguides and optical fibres is an undoubtedly fascinating process of complex explanation Adding to this there are conditionings to the usage of the process for example in telecommu
46. you can t do it in your first attempt don t give up Open the box of the connector and withdraw the different pieces and observe them Place the black rubber tube in the fibre over the hem and afterwards the orange cylinder With the help of a needle or even a syringe withdraw a bit of glue and put a drop inside the connector Put a bit of glue in the tip of the fibre Enter the fibre carefully inside the connector Remember that after it passes by the opening relatively wide about 2mm in diameter of the connector you have to hit the little hole in its centre The fibre must come a little bit out of the top of the connector 28 HANDS ON OPTICS TRAINNING COURSE OPTICAL FIBRES AD TELECOMMUNICATIONS Teacher s Manual Now enter the white tube inside the connector and pour a bit of glue in its end always to better protect the fibre Pour a bit of glue around the hem next to the connector and encase the black tube in the connector To finish up pour a sip of glue in the tip of the fibre that comes out of the connector and put the connector in a safe place and wait one day With the dry glue all that is left is to break the end of the fibre with a pair of pliers and polish as you have learnt but using the polish basis With the microscope check the quality of the work you have done Using the ST coupling link the connector you have just prepared to one of the connectors of the given patchcord Injec
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