D3.3b SCeTGo User Manual
Contents
1. 00 Fire Truck Mini double cone 06 Ramp B 05 Ramp A 04 Base 30 User Manual Mini cooler Q heater 14 Thermometer 12 Heater 13 Cooler 31 ent Goes Q9 Science Center To Go User Manual Mini wing 00 Wing 01 Box 16 Flat Wing 11 Fan 32 33 E Q Science Center To Go User Manual SEE EEE Eee UM www sctg eu The Science Center To Go project is co financed by the EAG ES lt lt L Education and Culture DG European Commission within the framework of the Lifelong Learning Programme Education Audiovisual amp Culture Lifelong teaming Programme Executive Agency2. 8 Frequently asked questions 9 Appendix A SCeTGo visual help and troubleshooting 10 Appendix B AR markers Science Center To Go User Manual for Miniatures Table of Contents CD WO N 11 15 17 19 21 23 25 29 User Manual rlerre wed ss Center To Go v Len ne a LN ON N Lm EEE m m M 5 E i E EE NL N S Ws s s 4 5 WM k M j E E EE E EEE NON ns DN ON m E E kemari E m M IN TN LN I L a atat ara i 1 Ju ow m mW es 1 os Lj Ly da a a mmm L m NM T a a a a a E E E E WIN NM x E M ON M E B MM E m a E m m m mW Ww HW m m NW M M EH EH uw wmm User Manual 1 Introduction Science Center To Go SCeTGo is a project that is producing creative inquiry based resources for learning science using augmented reality The SCeTGo consortium consists of ten research institutions in seven European countries http www sctg eu The assembly and programming is carried out at the Fraunhofer Institute of Applied Information Technology http www fit fraunhofer de index html The first point of contact for any queries users may have is the institution they acquired the suitcase from which in most cases will be in their own country The Science Center To Go suitcase contains the resources which consist of a laptop computer a webcam and five small scale
3. e Center To Go lenc UO Un User Manual www sctg eu gt CR Agogi C D C e Design by Ell Editor ELLINOGERMANIKI AGOGI M Dr Angelos Lazoudis NOM SN Authors Contributors CENTRE FOR EUROPEAN RESEARCH WALES LE Sue Owen Martin Owen FRAUNHOFER INSTITUTE OF TECHNOLOGY Hagen Buchholz Constantin Brosda Design ELLINOGERMANIKI AGOGI Ms Angelos Theodoropoulos Lg Education and Culture DG Education Audiovisual amp Culture Executive Agency Lifelong Learning Programme he Education Audiovisual and Culture With the support of the Lif opyright Information This work is licensed under tp creativecommons org licences by nc 3 0 OOS User Manual a E E m m Ms E ran i En wm E anana L nr m uu Wm m wm 2a a M NON a m m ow d a n en m uL o RUE hm m mw m a m NM i iuum e ww Ns a CREER E amp 7 i E mM m 8 amp 8 4 OWN mE EE RR OR som 4 B OM NOM E attr eee 1 Introduction 2 Equipment and software 2 1 The laptop 2 2 The miniatures 2 3 The webcam 3 Mini Fire truck the Doppler effect 4 Mini double cone classical mechanics 5 Mini wing wing dynamics 6 Mini double slit quantum mechanics 7 Mini cooler heater kinetic theory of gases
4. 1 Plug the heater and the fridge into USB ports 2 Push the button on the heater to turn it on if necessary 3 Choose the mini cooler heater from the SCeTGo menu 4 Put the three components in the field of view of the webcam 5 Move the thermometer between the two appliances and observe the changes in the AR The AR also works with only one appliance and the thermometer 6 Touch the SCeTGo logo on the screen to return to the main menu Younger learners can make observations and suggest interpretations for the AR What do the dots represent How does their speed change Why does it change Science specialists can relate this to the kinetic theory of gases covering the gas constant Avogadro s number and the Boltzmann constant e 22 User Manual 8 Frequently asked questions What should I do if can t find enough USB ports There are USB ports at the back and on the side of the laptop The mini heater is also a USB hub with four ports the webcam lead is too short to allow me to position the miniature where want it to be You can swivel the laptop screen round This gives more flexibility in positioning the miniatures laptop and webcam Alternatively use one of the mini heater s USB ports to extend the range of the camera want to turn off the sound on the mini fire truck Press the Fn and Entf keys simultaneously there doesn t seem to be an AR marker for the microphone mini fire truck
5. as shown in figure 19 using either the single or double slit The slit that is not in use should be out of the field of view of the webcam The background box should be oriented so that the AR marker is to the left 2 Position the webcam to view the miniature The AR does not extend beyond the boundaries of the miniature so it can fill the screen Choose the mini double slit from the SCeTGo menu 3 Choose wave large particle or electron mode by rotating the top of the cannon 4 Observe the AR In particle and electron modes observe the pattern building up on the background box 5 Observe the effect of moving the slit along the track 6 Adjust the webcam position to view the AR from different angles This is particularly useful for the waves 7 Repeat with different slits and options 8 Touch the SCeTGo logo on the screen to return to the main menu Younger learners could use this in wave and particle modes to predict what will appear on the screen and then to use the AR to find out if they are correct For science specialists this miniature could serve as an introduction to wave particle duality Pupils could try to explain how electrons travel through the double slit and deduce whether you can predict where the next electron will appear e 20 User Manual 7 Mini cooler amp heater kinetic theory of gases Online demonstration http www sctg eu miniature4 asp Figure 22 Fridge hotplate and thermometer
6. clear line of sight between the webcam and the markers The users need to learn to use the miniatures without breaking this eot Goes Q9 Science Center To Go User Manual 4 The markers are in perfect condition For this reason users should avoid touching them They can be printed out from this Ini E LA end B 3 Mini fire truck the Doppler effect 5 Each miniature is used with the correct software chosen from the SCeTGo menu Online demonstration http www sctg eu miniature2 asp The mini fire truck exhibit consists of a model fire truck and a strip with an AR marker representing a microphone Figure 6 The microphone is the lid of the mini wing box There are three elements to the AR 1 Sound waves coming from the fire truck s siren 2 the fire truck s two tone siren as detected by the microphone 3 The frequency of the sent and received frequencies Hz together with the equation f 1 Yfe Figure 4 The miniatures mini fire truck mini double cone mini wing mini double slit and mini cooler amp heater l where f is the received frequency fs is the emitted frequency v is the relative velocity and c is the speed of sound 2 3 The webcam The suitcase also includes a USB webcam with a stand The webcam needs to be assembled and then positioned so that 1 The AR markers are detected by the software mE Figure 6 Mini fire truck 2 The screen shows a goo
7. individual miniatures Links are given in this manual This is a very useful starting point for teachers and a useful troubleshooting resource but please note that the miniatures and AR have been updated since this video was recorded Teachers may not wish their students to watch the video before they conduct their investigations Users can make screenshots by simultaneously pressing the Fn and Druck F11 keys The images can then be viewed in Microsoft Office accessible from the Start menu Figure 3 The SCeTGo menu on the rotatable touch screen 2 2 The miniatures The miniatures are small plastic models Figure 4 Each miniature has two or more AR markers the black and white shapes in Figures 2 Q 4 that are recognised by the software through the webcam The markers disappear from the screen when the AR software detects them see Figure 2 and in some cases are replaced by images The augmented elements are computed according to the position of markers relative to each other and to their distance from the webcam The software responds to the AR marker and not the object itself so if the marker is not in the correct position on the miniature the AR will not work correctly It is important that 1 The system is set up on a flat sturdy surface that does not shake 2 The level of illumination is good A brightly lit classroom is usually good enough but the AR might not work if there is too much light 3 There is a
8. is an excellent description of it online from the University of Cambridge at http plus maths org issue40 features uphill index gifd html together with the history animations and associated trigonometry Figure 11 Roller viewed from above Figure 12 Uphill roller viewed from the side starting and finishing positions The roller is normally presented as an exhibit whose dimensions are fixed the objective of which is simply to solve the puzzle Why does the roller roll uphill Why does it appear to break the laws of physics The answer is of course that it doesnt The roller moving up the divergent tracks is actually falling grey arrows in Figure 12 The divergence of the rails overbalances their upward slope allowing the centre of mass of the cone to drop This is not obvious unless the exhibit is observed carefully from the side The SCeTGo miniature consists of a set of rails whose slope and angle of divergence can be varied together with three double cones and a cylinder Figure 13 Figure 13 Components of the mini double cone and the rail setup 15 eet ce LI TY Science Center To Go The angles of the apices of the 3 cones 2Y Figure 14 are 30 60 and 90 The AR measures two variable angles a the angle of inclination of the rails Figure 15 and B half the angle of divergence of the rails Figure 14 The cylinder is present for comparison purposes as it always roll
9. Figure 23 Screenshot of the mini cooler amp heater This miniature consists of a tiny working USB cooler and hotplate together with a thermometer Figure 22 The purpose of the miniature is to visualise how the speed of gas molecules changes with temperature There are three AR markers one on each element of the miniature The AR shows representations of molecules moving in the vicinity of the thermometer figure 23 The software detects the proximity of the thermometer to the hotplate or the fridge and varies the speed of molecule movement accordingly The screen also shows a graph of molecule speed against temperature based on the equation v 20 5V6 273 where v is the molecule speed in m s and 8 is the temperature in C Figures 23 and 24 A red line on the graph corresponds to the temperature on the AR thermometer v m s 425 00 345 350 345 300 l T C a 10 0 10 20 30 40 3S0 60 70 S80 230 100 Figure 24 Graph of molecule speed against temperature 21 x eost LI TY Science Center To Go Please note that on the screen 1 The temperatures are theoretical and are not the actual temperatures of the hotplate fridge or room 2 In order to illustrate the underlying principles the molecule speed observed is many orders of magnitude slower than the actual speed 3 The difference in speed at different temperatures is exaggerated To use the miniature
10. This marker is also the lid for the mini wing box the AR is giving unrealistic results mini wing mini double cone The orientation is important in these miniatures In the mini wing box and the rails for the double cone the AR marker must be to the left On the double cone check that the rails e rise to the same point on the rail supports e are butted up firmly against the rail supports the waves and particles are not appearing on the background box mini double slit The orientation is important in this miniature The AR marker on the background box mini wing box must be to the left the AR markers have become discoloured torn dirty You can print out new ones They are all given in Appendix B These must have the exact size and position as the original markers This is particularly important for the double cone where small changes in orientation affect the calculation of the angles the AR is unstable flashing The light level may not be adequate You may need a spotlight to increase illumination or to move the equipment away from direct sunlight to decrease it If this does not solve the problem one or more AR markers may need to be replaced e 23 Sarre vue 99 Science Center To Go User 9 Appendix SCeTGo visual help and troubleshooting Turn on computer and set up system Click or tap to start Main screen It is a touch screen Fraunhofer Save S wee Science Center To G
11. activities suggested for use in schools and colleges with the following groups of learners e Younger learners aged 8 to 13 e Older learners aged 12 upwards studying general science subjects e Science specialists aged 14 upwards working towards specific science qualifications This user manual is intended for teachers rather than learners The aim of the SCeTGo project is to promote interest in science and methods of scientific inquiry so the activity for users could be to work out how to use the miniatures and guess or deduce what they are showing rather than to follow instructions In all the activities learners have the opportunity to realise that the best way to make investigations is to make one change at a time and make careful observations e User Manual 2 Equipment and software 2 1 The laptop The suitcase includes a Dell laptop loaded with Microsoft XP and the AR software for the miniatures It is also loaded with other software such as Microsoft Office and Internet browsers It has a touch screen that can swivel round When the computer is switched on the user is presented with a visual menu from which to choose a miniature Figure 3 Users can return to this menu after using a miniature by touching the SCeTGo logo in the top right hand corner of the screen There is a link to a visual help guide and a video of all the miniatures in use from the menu screen The same video is on the SCeTGo website divided up into
12. al formulae Older learners could discover that if the computed formula is greater than 1 the roller goes up the rail They could make and record observations using one of the double cones predict what the results will be for the others and test their hypotheses Learners could also be asked to predict how the system would be affected by other changes for example if the double cone was partially filled with mercury Science or mathematics specialists could study the trigonometry define the conditions needed to make an uphill roller and make and test their own e 16 Online demonstration http www sctg eu miniaturel asp Figure 17 Components of the mini wing miniature and wing set up for use Figure 18 The mini wing as it appears on the screen User Manual 5 Mini wing wing dynamics The miniature aeroplane wing mini wing consists of an object shaped like the section of an aeroplane wing connected to a box Figure 17 The angle of the wing with respect to the ground can be changed There is also a fan that is powered through a USB connection and a flat wing for comparison purposes This miniature is designed with a specific activity in mind which is to help explain why aeroplanes can fly and to determine the angle of the wing that maximises the lift afforded to the aeroplane The AR measures the angle of the wing with respect to the horizontal and overlays five elements to the image of the wing on the laptop
13. d display of the whole miniature and in some cases the space around it 3 It is stable and does not fall over easily Once a good position has been found it is a good idea to stick the stand to the surface Sound waves are represented by concentric circles with adhesive tack or masking tape that travel away from the virtual sound source a Users can experiment to find the best orientation In general locating the P 3 3 two note siren at the front of the fire truck The camera above the miniature pointing down at an angle works well see circles are red at the source and become paler Figures 2 Q 5 as they travel away Figure 7 On the screen the microphone AR marker appears as a microphone The following sections contain a description of each miniature in turn with that detects the sound from its position relative to instructions for setting up and using them e the source Figure 5 The webcam and stand Figure 7 Fire truck as seen on the screen 10 11 The pitch of the sound is represented by the distance between the circles as they reach the microphone When the vehicle and observer are stationary the sound waves come from the siren in evenly spaced concentric circles Figure 8 and the pitch of the two notes detected by the microphone is constant with sent and received frequencies of 450 and 590 Hz If the fire truck is moved forwards across the frame of the webcam the circ
14. les are closer together in front and further apart behind The pitch of the sounds is higher as the vehicle moves towards the microphone Figure 9 and lower as it moves away Figure 10 The higher the velocity of the fire truck is relative to the microphone the greater the change in pitch Thus the frequencies displayed on the screen are correspondingly higher or lower as appropriate In figure 7 the fire truck is moving towards the microphone and the received frequencies are 477 and 625 Hz The miniature can also be used to show the reciprocal effect that if the fire truck remains stationary and the microphone is moved the pitch of the sound also changes the relative velocity being the determining factor in the pitches and frequencies detected The AR will also respond appropriately when both the sound source and microphone are moved at the same time i Figure 8 Stationary fire truck Figure 9 Fire truck moving Figure 10 Fire truck moving away towards microphone from microphone To use the miniature 1 Choose the fire truck from the SCeTGo menu 2 Position the webcam so that the fire truck and microphone can be moved about 30 cm and still remain in the camera s field of view Wait until the AR is stable 3 Move the fire engine and observe the pattern of sound waves the pitch of the siren as detected by the microphone and if desired the frequencies The AR works best if the fire truck is moved slowly 4 Move the microphone and n
15. mine the optimum angle of attack for the wing the one that gives optimal lift which is of the order of 15 to 20 Older learners can relate this to Bernoulli s principle Science specialists could research other factors that have been proposed as contributing to the optimum shape for airfoils and their relative importance Learners can also use this miniature to explore and propose theories about how wings enable aeroplanes to fly It may be useful to carry out an experiment from which the pupils discover that objects are drawn towards faster moving airstreams Alternatively they could base theories on the number of air molecules striking the upper and lower surfaces of the wing e User Manual 6 Mini double slit quantum mechanics Online demonstration http www sctg eu miniature3 asp This miniature is based on Young s double slit which the polymath Thomas Young used in the nineteenth century to demonstrate the wave nature of light He directed a narrow monochromatic light source at two slits and observed interference patterns on the observation screen Since then experiments have been carried out firing electrons through double slits to define and explore their wave particle duality The aim of the mini double slit is to use AR to simulate the behaviour of particles and waves passing through single and double slits There is a simple explanation of this topic in animated format at http www youtube com watch
16. o User Manual Stop Troubleshooting g O O d Good light conditions and well illuminated AR markers Click or tap to stop exhibit Steep camera angle Good light conditions n ot S O g O O d Bad light conditions and poorly illuminated AR markers Put things back into place Shadow edges on markers Occlusion of markers Markers are not fully visible in the camera image m Turn off computer P un a La Les dun des l e i E E ns mn E i Css RE hn Ld FYtl lY lb 3 A a XT N F 3 mm 26 21 ess Swee Science Center To Go Problems 1 tan 10 1 _ 017 tan 5 9 01 The touch screen does not work If the touch screen does not react on tapping try swiping How do update the system Follow instructions below 1 Move mouse to the bottom of the screen 2 Right click the SCeTGo symbol in the taskbar 3 Left click on Check for updates User Manual 10 Appendix B AR markers The AR may not work well if the markers are not in perfect condition If they become damaged you can reprint and replace them Mini double slit 01 Box 08 Single Slit 09 Double Slit 15 Cannon Control 29 Saree OS wee e Science Center To Go Mini Fire truck The microphone AR marker is the box of the mini wing and mini double slit
17. ote the effect on the pitch of the siren and on the frequencies of the sounds 5 If desired turn the sound on and off by simultaneously pressing Fn and Entf on the keyboard 6 Touch the SCeTGo logo on the screen to return to the main menu User Manual Younger learners who have not yet learned about the wave nature of sound could be asked what they think the circles represent Careful experimentation and observation could lead them to make the connection between the pitch of the sound and the spacing of the circles Older learners could be shown a film clip of the Doppler effect and then asked to use the miniature to explain the effect a when the fire truck is moving and bj when the observer is moving Science specialists should be able to explain why the perceived frequency of a sound relates to the relative velocity of source and observer They should be able to explain the equations associated with the phenomenon e T ELLOS E Save Swee Science Center To Go User Manual 4 Mini double cone classical mechanics Online demonstration http www sctg eu miniatureb asp This is based on a seventeenth century puzzle known as Leybourn s uphill roller It consists of two cones joined together at their bases on rails that slope and diverge If the double cone is placed on the narrow lower end of the track it travels along the track appearing to travel uphill Figures 11 and 12 There
18. s down the slope The AR computes tan B x tan v Figure 15 Angle a tan d f Figure 14 Angles B and v If this is gt 1 then the double cone rolls up the rails If it is 1 the cone rolls down In figure 16 it is balanced The colours of the elements of the formula onscreen correspond with the colour of the cone and the angles of the miniature Figure 16 To use the miniature 1 Put the objects on the foam mat or on another suitable high friction surface and set them up as shown in figures 13 and 16 with the AR marker on the left hand side of the rails The edges of the rails should butt up evenly against the supports 2 Locate the webcam so that it detects the three AR markers Choose the double cone from the SCeTGo menu 3 Choose a cone and indicate on the screen which cone is in use 4 Put the cone on the rails and see whether it goes up or down the slope 5 Experiment with the miniature changing angles a and B and observing how the cones and the cylinder travel on the rails 6 Observe the effect the changes have on the AR Figure 16 The double cone as it appears on the screen 7 Touch the logo on the screen to return to the main menu This is a complex model and there are many options for activities in the classroom Younger learners could look at the one cone and the rails without the AR and try to work out why the cone travels up the rails They could express their findings in words rather than mathematic
19. science centre exhibits miniatures Figure 1 1 Mini fire truck the Doppler effect 2 Mini double cone classical mechanics 3 Mini wing wing dynamics 4 Mini double slit quantum mechanics 5 Mini cooler Q heater kinetic theory of gases Figure 1 The Science Center To Go suitcase and contents laptop not shown The miniatures are set up one at a time in the webcams field of view The webcam creates an image on the laptop screen Software adds an overlay to the image As the miniature is manipulated the overlay changes in response to the movement The overlay depicts an aspect of the scientific phenomenon under investigation for example trigonometric information or waves Figure 2 This process of adding unseen elements to the image on the screen is the augmented reality AR The suitcase is a self contained science centre that can be used in schools and science clubs or by individuals in their homes The aim is to stimulate interest in science and to promote techniques of scientific inquiry so that subsequent visits to a science centre are more productive and rewarding The suitcase can also be used to follow up a visit to a science centre or as a stand alone resource when a visit is not possible Saree Swee Science Center To Go Figure 2 The AR adds elements to the miniatures The suitcase is designed to be used by anyone who can manipulate the parts safely In this manual there are some
20. screen Figure 18 1 The body of the aeroplane 2 The relative speed and direction of airflow above and below the wing Curved green lines represent the direction of airflow The blue and red arrows on these lines represent the relative speed of air above and below the wing The airflow speed increases as the fan is moved nearer to the aeroplane 3 Uplift The solid green arrow pointing upwards from the wing represents the force acting to lift the wing 4 Drag The solid pink arrow represents the force acting against the wing s forward motion If this is great the plane will stall 5 Air molecules being sucked through the fan eet ee Swee Science Center To Go To use the miniature 1 Take the mini wings out of their box and then insert the shaped wing into the holes that go through the box Put the lid on the box with the AR marker on the left Figure 17 2 Plug the fan into a USB port 3 Choose the mini wing from the SCeTGo menu 4 Position the webcam so that the wing is in the centre of its field of view and the fan to the left 5 Check that all the AR markers are detected by the webcam 6 Adjust the angle of the wing and observe the effect this has on the AR Allow the AR to stabilise between adjustments 7 Replace the shaped wing with the flat wing and observe the differences 8 Touch the SCeTGo logo on the screen to return to the main menu The main activity with this miniature is to deter
21. v DfPeprQ7oGc The miniature Figure 19 consists of e a background box the same box that is used in the mini wing miniature e asupport for the screens with a track for the slits to move in e two interchangeable screens with single and double slits e acannon that can be rotated to fire large particles waves or electrons Figure 19 Miniature with double slit screen in place There are AR markers on the background box on each screen and on the cannon There are three modes of AR e Wave mode particle mode electron wave particle duality mode In particle mode a single or double line of particles appears on the background box representing particles passing through one of the slits and striking the background The thickness of the lines builds up with time Figure 20 In wave mode the AR shows the effect of waves originating from the cannon The lines on the background of the double slit version represent vertical extensions of the points where the waves have interfered constructively Figure 21 In electron mode electron particles are fired at the slits and the pattern on the back when there are two slits shows several rows of particles building up showing that there are interference effects consistent with wavelike properties Save S wee Science Center To Go Figure 20 Double slits in large particle mode Figure 21 Double slits in wave mode To use the miniature 1 Set up the miniature
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