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1.INTRODUCTIONTeaching science is much easier when your learning is hands-on and you perform experiments. This applies to teaching optics very well: since vision is our dominant sense, it is easier for us to trust and understand what we see more than any other stimulus. However, it is not always possible to have access to experimental kits in classrooms or even in universities. This is often true in low- and middle-income countries where the government expenditure on education is less than a 5% of their GDP as of 2010, almost a 0.9% under the average expenditure of high-income countries [1]. A similar scenario can be found in low-income schools in high social risk sectors of all countries. In order to overcome the restrictions created by the lack of funding, teachers and professors have often used recycled equipment and everyday materials in order to create experiments. Initiatives like “Dumpster optics” kit [2] or some of the experiments found in the web page “Practical Physics” by the Institute of Physics [3] are good examples of how to create experimental kits at very low cost, using mostly recycled items for providing an excellent explanation for optical phenomena such as diffraction, refraction, and reflection among others. In this work, we present an outreach activity where the participants must build a spectrometer using everyday recyclable materials. We give a great emphasis to the concept of recycling and reusing. For instance, we encourage the participants to use old CDs and DVDs to build their spectrometers. Finally, an experiment sheet is provided to replicate the experiment and the construction of the spectrometer in classrooms, outreach sessions and for personal use. 2.BACKGROUND2.1University of Exeter Optics and Photonics SocietyThe University of Exeter Optics and Photonics Society (EUOPS) was established in 2016 and comprised the members of the SPIE student chapter founded in 2014 and the OSA student chapter founded in 2016. Its goal is to promote an environment for sharing ideas and events related with the communication of science at all levels, and the professional development of its members. The society has chosen to focus its efforts in promoting science to a non-specialist audience, most commonly pre-university students, through outreach sessions in different events and locations around Devon, UK. 2.2Optics Outreach Games 2017The design of the “Homemade spectrometer with a CD or DVD” was created to participate in the Optics Outreach Games 2017 (OOG) held within the SPIE Optics and Photonics 2017 conference in San Diego, USA. OOG is an instance to share optics and photonics demonstrations from student chapters worldwide. We aimed to create an outreach demonstration with an important optics content, as it is the explanation of the formation of colors spectrums through diffraction. We also aimed to create a demonstration fully reproducible anywhere. In order to do this, we created a worksheet that contains all the information required to perform the demonstration and build the spectrometer. This worksheet can be acquired from EUOPS in every outreach session or by emailing EUOPS (euops@exeter.ac.uk). 3.HOMEMADE SPECTOMETER USING A CD OR DVD3.2Description of the activityThe demonstration starts by delivering a document to the participants that contains the information required to understand the goals of the activity, the physics behind the experiment, a template to build a spectrometer, examples of the results that they should get after building the device and extra activities to carry-on. The full document is provided as an appendix of this paper. The first part of the demonstration is hands-on. Here, the demonstrator defines what a spectrometer is and what it does. After a short introduction, the participants are invited to create their own spectrometer using the template provided at the end of the distributed document. This part of the activity can last from 10 to 15 minutes depending on the expertise and manual skills of the participants. It is recommended to encourage the use of recyclable items to build the spectrometer e.g. an old CD or DVD and a cereal box painted in black to stick on the template. It is important to restrict the passage of light from other places except the slit formed by the shutter. In order to do that, the cardboard has to be as opaque as possible. Figure 1(a) shows the materials needed to build the spectrometer and figure 1(b) the final spectrometer. The second part of the demonstration is mostly expositive. Here, the scientist or teacher establishes the question, “Why do CDs reflect rainbow colors?” and introduce the concepts of diffraction, diffraction gratings, spectra and colors as wavelengths. Using their own spectrometer, participants should look for different light sources and compare them with the examples provided in the worksheet. The daylight and fluorescent lightbulbs are the most common light sources used in most of the outreach sessions and they are a good start to test the functioning of the device. It is critical to have a slit of ~0.5 cm wide to obtain a good spectrum. The size of the slit can be modified by moving the shutter. Finally, the activity concludes by encouraging the participants to try different light sources and to discover what elements are producing that light emission. This must be done by comparing the acquired spectrum with the information provided on the data sheet containing the light spectrum produced by all the elements in the periodic table [4]. This data is from MIT Wavelength Tables and the NIST Atomic Spectrum Database [5]. 3.3Health and SafetyIn general, this is a safe demonstration, which does not require demonstrators to carry out any specific health and safety training. The following rules of thumb should serve as general advice:
4.OUTPUTS AND PUBLIC RECEPTIONThe general reception by the public has been positive, with several requests from different schools around Devon and other countries. 4.1Winners of the Optics Outreach Games 2017The “Homemade spectrometer using a CD” outreach demonstration won the first place at the Optics Outreach Games 2017 in San Diego. We have very positive comments related to the simplicity and effectiveness of the device, and on the concept of recycling and reuse used as part of the demonstration. People from different places and positions around the world took worksheets to replicate the demonstration at their institutions and outreach sessions. 4.2Sidmouth Science festival 2017The “Sidmouth Science festival” is a scientific festival that started in 2012 in the city of Sidmouth, UK. In 2017 it lasted 13 days with over 4400 attendances during the week [6]. The event is aimed at all ages and abilities and most events are free to attend, as it can be seen in Figure 3. EUOPS set-up a stand on Saturday the 14th of October, 2017 presenting different demonstrations related to optics with one of them being “Build your own spectrometer with a CD”. The stand received more than 300 people during the day and about 30 participants built their own spectrometer. We provided a CD to test it in the place, but we encouraged them to use one of their own CDs at home. 4.3International day of Light 2018 – Outreach in the streetsThis year is the first time that the International Day of Light is celebrated around the world. More than 500 events took place in 87 countries to create awareness of the role that light plays in science, culture and art, education, sustainable development, and in fields as diverse as medicine, communications, and energy. EUOPS organized two main events that included the entire community of Exeter. We held a photo competition open to everyone in UK with three main categories which encouraged participants to find how important light is in nature, in their day-to-day life and in technology. In addition, we organize a multi-disciplinary outreach session including scientists from physics, engineering, biophysics, astrophysics and archaeology. We reached around 50 people, most of them adults. We received very good feedback on all the outreach demonstrations, which included the homemade spectrometer. 4.4Lighting up RAMMOn Saturday the 21st of July, 2017 EUOPS members and students of the CDT in Metamaterials XM2 of the University of Exeter (UoE) (Figure 5) organized an outreach session in the Royal Albert Memorial Museum (RAMM) and Art Gallery in Exeter to show hands-on experiments and demonstrations related with the permanent exhibition held by the museum. More than 150 visitors [7] participated in the various activities carried out on that day such as conduction of metals, superconductivity, graphene based circuits, metamaterials in birds and insects, acoustics experiments and hands-on mixing of colors, and creating your own spectrometer with a CD. Both children and adults enjoyed making the spectrometer and using it around the museum. A local artist took a couple of copies of the worksheet to teach their students how to build the device and try to get an artistic output from it, giving an artistic twist to the demonstration. Teachers from local schools also asked for copies to run the experiment in their classrooms. 4.5Sharing the activity around the worldIn each outreach session teachers, students and general public have taken copies of the worksheet that contains the full activity. However, people from other countries have required the activity to replicate it in their own outreach sessions and classrooms:
5.SUMMARYIn summary, we have created an outreach demonstration based on building a spectrometer with a CD or a DVD. The new design of the spectrometer allows the modification of the size of the slit that collects light to produce the diffraction spectra. The demonstration is comprised within a document will full explanation of the steps to build the spectrometer, a simple explanation of the light phenomenon of diffraction, examples of spectra taken with the device, a template to build the spectrometer and a data sheet with the spectrum for each element of the periodic table. The full document is provided as an appendix of this paper for general use. We have carried out outreach sessions implementing this demonstration with a positive public reception and feedback. People like the simplicity of the demonstration and how easy it is to build the spectrometer. In addition, people sympathize with the idea of recycling and reusing materials to build the spectrometer and to extend the idea of recycling and reusing in their day-to-day life. Finally, students, artists and teachers from UK, Mexico, Chile and USA have asked for permission to reproduce the activity in their respective institutions and outreach sessions using the worksheet provided during the activity. ACKNOWLEDGMENTSWe acknowledge financial support from SPIE, OSA and the Engineering and Physical Sciences Research Council (EPSRC) of the United Kingdom, via the EPSRC Centre for Doctoral Training in Metamaterials (Grant No. EP/L015331/1). REFERENCES(Max Roser and Esteban Ortiz-Ospina, Financing Education,”
(2018) OurWorldInData.orghttps://ourworldindata.org/financing-education Google Scholar
Judy Donnelly, Nancy Magnani, Kathleen Robinson,
“Dumpster Optics: teaching and learning optics without a kit,”
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“Practical Physics,”
(2018) http://www.practicalphysics.org Google Scholar
Julie Gagnon,
“Visible Spectra of the Elements,”
(2018) http://www.umop.net/spctelem Google Scholar
,Atomic Spectra Database,
(2018) https://www.nist.gov/pml/atomic-spectra-database Google Scholar
,Sidmouth Science Festival 2017 Review,
(2018) http://www.sidmouthsciencefestival.org/sites/default/files/users/common/review17.pdf Google Scholar
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Homemade spectrometer using a CDA spectrometer is a device that separates light into its different component wavelengths. Depending on the source of the light, you might decompose it into the entire visible spectrum (like a rainbow) or find out that only certain wavelengths (colors) make up the source. Knowing which colors you can get from a source of light, you can determine what is actually producing that light. How to make your own spectrometer.In order to create a portable homemade spectrometer, we will need the following materials:
Let us stick the spectrometer template on one side of the cardboard. If your cardboard has just one black side, leave that side free and stick the template sheet on the opposite side. Cut the region delimited by the red lines. Do not forget to cut the shutter (black rectangle). With care, cut the dashed line with the cutting knife or scalpel. You should produce a slit for inserting the CD or DVD, an aperture to let the light enter, two small slits to fit the shutter and a circle to observe the color spectrum. Use the reverse of your cutting knife or scalpel to go over of each solid red line. This will help you to bend the wings and the sides of the cuboid easily. Stick the long wing to the opposite side of the rectangle. Close the cuboid. You may find it helpful to use some adhesive tape. Carefully place your CD or DVD into the big slit. Your homemade spectrometer is ready to use! How to use your spectrometer.Find a light source that you would like to analyze. Point the small slit formed between one edge of the aperture and the shutter towards the light. You can modify the size of the slit moving the shutter. A slit too narrow will produce a dim spectrum but a slit too wide produce a blurred one. Try to adjust the shutter to create a slit of around 0.3 mm. A beam light must pass through the small slit and hit the CD. Look through the round aperture and you will see the decomposition of that beam light into the different wavelengths (colors). You can use your phone camera to capture the color spectrum and compare different sources. How does this work?The physics principle that makes possible a spectrometer works is diffraction. Light can behave as a particle and as a wave and in this case, we are using a wave picture of the light to decompose it. In a similar way that you get a rainbow when you pass white light through a prism, you can get a rainbow if you pass light through a grating with small slits. However, these two types of rainbows are form due to different light phenomena. Rainbows in the sky after a rainy day, or the decomposition of white into colors by a prism are cause by a phenomenon called refraction. The colors produced by an oil stain in the street, or on the shiny side of a CD-ROM are produce by a phenomenon called diffraction Diffraction is the bending of waves around the corners or edges of an obstacle or aperture. What kind of obstacles does a CD have? If you could see really close onto a CD or a DVD surface, you would see thousands of tracks separated all by the same distance. These devices store the information in these tracks and each millimeter of CD-ROM contains 625 tracks, which gives us tracks separated by 1.6 micrometers. A DVD contains twice as many tracks than a CD in each millimeter These tracks have to be around the same size as the wavelengths that we are trying to decompose and, for visible colors, that goes between 400nm and 700 nm. The tracks of a compact disc acts as something called a diffraction grating and separates light into its different components. A white light source must contain in it all the colors of the visible spectrum, and each color has an associated wavelength. If you shine white light onto a CD or DVD, you should see the formation of a rainbow with all the visible colors on it. The rainbow is formed because each color is diffracted into a different angle. The bigger the wavelength (or the closest to the red) is that color the bigger is the diffraction angle and vice versa. In this way, each color arrives to a different position in your eye, forming a rainbow. However, not all the light sources contain all the colors. It does depend of element of the periodic table that that light source uses to produce light! These are some examples of spectra taken with our homemade spectrometer pointed at different light sources: Hands on! Take your spectrometer with you and find different light sources around you. Try with the following ones:
Try to discover what elements are in the different sources using the “Visible Spectra of the Elements” table provided with this document. Have fun! If you would like to ask us some questions about this experiment, physics or science in general, please get in touch to the following email: euops@exeter.ac.uk or Erick Burgos Parra eoburgsos@ug.uchile.cl. Erick Burgos Parra and Gloria Segovia Alvear took not acknowledged pictures. |