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Poskusi iz optike z zbirko pripomočkov projekta Fibonacci
ID Mrak, Špela (Avtor), ID Čepič, Mojca (Mentor) Več o mentorju... Povezava se odpre v novem oknu, ID Gostinčar Blagotinšek, Ana (Komentor)

URLURL - Predstavitvena datoteka, za dostop obiščite http://pefprints.pef.uni-lj.si/4225/ Povezava se odpre v novem oknu

Izvleček
Učenke in učenci se skozi osnovnošolsko izobraževanje pri pouku pogosto srečajo s svetlobo. Diplomsko delo je namenjeno spodbujanju raziskovanja na tem področju. V praktičnem delu diplomske naloge sem se posvetila pripravi praktičnih nalog, ki jih učenke in učenci izvedejo s pomočjo Zbirke svetloba - naravoslovje. V prvi triadi učenke in učenci pri predmetu Spoznavanje okolja poimenujejo predmete, ki oddajajo svetlobo, opazujejo njeno širjenje, opazujejo osvetljene predmete ter ugotavljajo, v kakšnih pogojih so predmet bolje vidni. Opazujejo lahko popolni odboj in sence. Pri predmetu Naravoslovje in tehnika učenke in učenci po navodilih izvajajo poskuse, za ozaveščanje vsebin pa so predvideni še učni listi. S pomočjo predmetov, ki jih poiščejo v svoji okolici, ugotavljajo ali so bolje vidni osvetljeni ali neosvetljeni predmeti. Preučujejo lahko odvisnost velikosti sence od razdalje med predmetom in zaslonom. Učenke in učenci sami iz papirja naredijo maketo hriba. Le-to uporabijo za ponazoritev prisojne in osojne strani hriba. V naslednji nalogi ponovno poiščejo nov predmet iz okolice, ki je primeren za ponazoritev prisojne in osojne strani. Poskus skicirajo in označijo pomembne pojme. Tako si znanje utrdijo. Odvisnost sence od lege telesa spoznajo s pomočjo dveh različno velikih figuric, ki si jih lahko izdelajo sami ali pa jih poiščejo doma oziroma v učilnici. Za Naravoslovje v 6. in 7. Razredu so predvidene dejavnosti pri katerih učenke in učenci osvojijo pojma osvetljeno telo ter osvetljena stran telesa, sestavijo poskuse, kjer prikažejo nastanek sinje, škrlatne, rumene in bele svetlobe, spoznajo, da se smer svetlobe pri prehodu skozi plan-paralelno ploščo pri pravokotnem vpadu ne spremeni, pri vpadu pod kotom pa se svetlobni curek vzporedno premakne in preučujejo pojav, ko se svetloba deloma lomi, deloma odbijeod predmeta. Pri Fiziki v zadnji triadi učenke in učenci preučujejo odbojni zakon, zrcalni in difuzni odboj,lom svetlobe na meji dveh snovi. Učenke in učenci pri tem poskusu analizirajo smer ter prehod svetlobe skozi razpršilno ter zbiralno lečo.

Jezik:Slovenski jezik
Ključne besede:Zbirka svetloba – naravoslovje
Vrsta gradiva:Diplomsko delo
Tipologija:2.11 - Diplomsko delo
Organizacija:PEF - Pedagoška fakulteta
Leto izida:2016
PID:20.500.12556/RUL-87217 Povezava se odpre v novem oknu
COBISS.SI-ID:11360841 Povezava se odpre v novem oknu
Datum objave v RUL:31.08.2017
Število ogledov:1712
Število prenosov:256
Metapodatki:XML DC-XML DC-RDF
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Sekundarni jezik

Jezik:Angleški jezik
Naslov:Optics experiments with the Fibonacci project experimental resource kit
Izvleček:
In the course of primary school education, pupils often encounter the phenomenon of light during classes. The aim of this degree paper is to promote research in this field. The practical part of the paper is devoted to making practical exercises that pupils perform with the help of the textbook Zbirka svetloba – naravoslovje (The Light Compendium – Natural Sciences). During the first three years, also called the first triad, in the Environment Studies class pupils get acquainted with the Light Compendium – Natural Sciences textbook; they name the light-emitting objects, observe its diffusion, observe illuminated objects and find out in which conditions the objects can be best seen. They observe total reflection with the help of a mirror reflection, and study shade with the help of a figure and a screen. In the Natural and Technical Sciences class, pupils independently, following instructions, observe a light beam originating from an illuminant and record their answers on worksheets. With the help of objects, found in their surroundings, they determine the visibility of an object depending on whether the object is illuminated by a light beam or not. Using a small figure and a white screen, they learn how shadows depend on the positions of the figure and the screen. Pupils make a scale model of a hill by themselves. The model is then used to depict the sunny and the shady side of the hill. In the next exercise, they again find a new object in the surroundings that is suitable for depiction of the sunny and the shady sides. They make sketches of the experiment and mark the important terms. This helps them review their knowledge. Pupils learn about dependency of the shade on the position of the body with the help of two different-sized figures that they can make themselves or search for at home or in the classroom. In the Nature Sciences class in the years 6 and 7, pupils acquire the terms ‘illuminated body’ and ‘illuminated side of a body’ through an experiment where they position a figure in the way of light and observe where the figure is more and where it is less illuminated. Using green-, blue-, and red-coloured filters, pupils set up an experiment where they show the making of cyan, magenta, yellow, and white lights. In the experiment using plane-parallel plates, pupils learn that the direction of the light transmitted through plane-parallel plates does not change with the 90-degree angle, however the light beam does move in the parallel position when the angle is changed. The phenomenon where the light is partly refracted and partly reflected is studied with the help of an illuminant, one narrow light beam, and a semicircular lens. In the Physics class in the last triad, pupils set up an experiment with an illuminant, one narrow light beam and a mirror. While changing the position of the mirror, they observe the angle of incidence and the angle of refraction. They establish that the angle of refraction is always identical to the angle of incidence. With the help of aluminium foil, pupils produce diffuse reflection and explore the difference between the diffuse and total reflection. The refraction of light at the boundary between two substances with different optical densities is shown with one narrow beam of light and a plane-parallel plate. Travelling through the air and into the glass, the light refracts towards the perpendicular line, and away from it when it travels from the glass and towards the air. Pupils learn about the characteristics of converging lens when the light is directed at it, parallel to the optical axis, in 3 parallel light beams. In the course of this experiment, pupils analyse the direction of light when it travels through converging lens. Similarly, they set up an experiment with diverging lens, except that in this case, the light diffuses when travelling through the lens and its beams seemingly intersect before entering the lens.

Ključne besede:Fibonacci project experimental resource kit

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