Будь ласка, використовуйте цей ідентифікатор, щоб цитувати або посилатися на цей матеріал: http://elibrary.kdpu.edu.ua/xmlui/handle/123456789/7031

Назва:	How can the principles of learning be used to select the best ICT tools for computer-based chemistry instruction in high school?
Автори:	Нечипуренко, Павло Павлович Семеріков, Сергій Олексійович Селіванова, Тетяна Валеріївна Шенаєва, Тетяна Олексіївна
Ключові слова:	research skills chemistry instruction ICT high school students principles of chemistry instruction electronic educational resources
Дата публікації:	17-вер-2022
Видавництво:	Academy of Cognitive and Natural Sciences
Бібліографічний опис:	Nechypurenko P. P. How can the principles of learning be used to select the best ICT tools for computer-based chemistry instruction in high school? / Pavlo P. Nechypurenko, Serhiy O. Semerikov, Tetyana V. Selivanova, Tetyana O. Shenayeva // Educational Dimension. – 2022. – Vol. 59. – P. 188-241. – DOI : 10.31812/educdim.4738.
Короткий огляд (реферат):	The role of information and communication technology as well as teaching aids in specialized chemistry instruction was examined in the article. One of the key outcomes of specialized instruction in chemistry is the development of research skills in high school students. To ensure conformity with the principles of specialized chemistry teaching, ICT tools have been analyzed and systematized. The decision to use ICT tools to implement specialized chemistry training and strengthen the research skills of high school students in specialized chemistry training had supported. The findings of a study to assess the feasibility of implementing certain ICT tools to strengthen the research skills of high school students in specialized chemistry training are provided.
Опис:	[1] The Fourth Revolution: Instructional Technology in Higher Education : A Report and Recommendations by The Carnegie Commission On Higher Education. McGraw-Hill Book Company, Hightstown (1972), URL https://archive.org/details/ERIC_ED061994 [2] On the National Informatization Program (1998), URL https://zakon.rada.gov.ua/laws/show/74/98-%D0%B2%D1%80?lang=en#Text [3] Modelnyi zakon ob informatizatcii, informatcii i zashchite informatcii (2005), URL http://web.archive.org/web/20190103224550/https://zakon.rada.gov.ua/laws/show/997_d09 [4] Khimiia. 10-11 klasy: prohramy dlia profilnoho navchannia uchniv zahalnoosvitnikh navchalnykh zakladiv: riven standartu, akademichnyi riven, profilnyi riven ta pohlyblene navchannia. Mandrivets, Ternopil (2011) [5] Kontseptsiia profilnoho navchannia : proekt [The concept of profile education: project] (2014), URL http://web.archive.org/web/20140814062746if_/http://mon.gov.ua/img/zstored/files/%D0%9A%D0%BE%D0%BD%D1%86%20%20%D0%BF%D1%80%D0%BE%D1%84%20%D0%BD%D0%B0%D0%B2%D1%87.doc [6] Crocodile Chemistry 6.05 Portable (2020), URL https://archive.org/details/crocodile-chemistry-6.05-portable234 [7] Aksela, M.: Supporting Meaningful Chemistry Learning and Higher-order Thinking through Computer-Assisted Inquiry: A Design Research Approach. Ph.D. thesis, University of Helsinki, Helsinki (2005), URL https://helda.helsinki.fi/handle/10138/21127 [8] Alibekian, M.: Pedagogicheskie uslovija razvitija issledovatel’skoj kompetentnosti uchashhihsja v sisteme nachal’nogo professional’nogo obrazovanija: na materialah Islamskoj Respubliki Iran [Pedagogical conditions of development of research competence of students in initial vocational training: on materials of the Islamic Republic of Iran]. diss. ... cand. ped. sciences : 13.00.01 – general pedagogy, history of pedagogy and education, Tajik State Pedagogical University named after Sadriddin Aini, Dushanbe (2013), URL https://viewer.rsl.ru/ru/rsl01005537595 [9] Avanesov, V.S.: The Problem of Psychological Tests. Soviet Education 22(6), 6–23 (1980), https://doi.org/10.2753/RES1060-939322066 [10] Babanskii, I.K.: Optimizatciia uchebno-vospitatelnogo protcessa: metodicheskie osnovy [Optimization of the educational process: methodological foundations]. Prosveshhenie, Moscow (1982) [11] Bakker, S.: Introduction of External, Independent Testing in “New Countries”: Successes and Defeats of the Introduction of Modern Educational Assessment Techniques in Former Soviet and Socialist Countries. Educational Measurement: Issues and Practice 31(2), 38–44 (2012), https://doi.org/10.1111/j.1745-3992.2012.00234.x [12] Ball, G.A.: Programmirovannoe obuchenie [Programmed learning]. In: Gritcenko, V.I., Dovgiallo, A.M., Savelev, A.I. (eds.) Kompiuternaia tekhnologiia obucheniia: slovar-spravochnik [Computer technology of education: a dictionary-guide], pp. 420–423, Naukova dumka, Kiev (1992) [13] Bobrovskaia, L.N.: Uchebnaia kompiuternaia prezentatciia v obuchenii informatiki kak sredstvo realizatcii metodicheskoi sistemy uchitelia. Dis. ... kandidata pedagogicheskikh nauk : 13.00.02 – teoriia i metodika obucheniia i vospitaniia (informatika), Volgograd State Pedagogical University, Volgograd (2008), URL http://irbis.gnpbu.ru/Aref_2008/Bobrovskaya_L_N_2008.pdf [14] Boltianskii, V.G., Savin, A.P.: Besedy o matematike [Conversations about mathematics], vol. 1: Diskretnye obekty [Discrete objects]. FIMA : MTcNMO, Moscow (2002) [15] Bondar, S.P.: Tekhnolohiia navchannia [Technology of learning]. In: Kremen, V.H. (ed.) Entsyklopediia osvity [Encyclopedia of Education], pp. 906–907, Yurinkom Inter, Kyiv (2008) [16] Brykova, O.V., Smirnova, Z.I., Eelmaa, I.V.: Rekomendatcii po oformleniiu i predstavleniiu prezentatcii. Gosudarstvennoe obrazovatelnoe uchrezhdenie dopolnitelnogo obrazovatelnogo uchrezhdeniia tcentr povysheniia kvalifikatcii spetcialistov Sankt-Peterburga “Regionalnyi tcentr otcenki kachestva i informatcionnykh tekhnologii”, Sankt-Peterburg (2008), URL http://www.zhg-zresurs.ru/docs/orgmetod/fgos_ooo/events/seminar_10-10-16/oforrmlenie_prezentatsii.pdf [17] Burchak, L.: Forming Research Competence of Future Teacher of Chemistry in the System of Higher Education. Scientific thesis for the Degree of Candidate of Pedagogical Sciences in speciality 13.00.04 – Theory and Methodology of Professional Education, Poltava National Pedagogical University named after Korolenko, Poltava (2011), URL https://nrat.ukrintei.ua/searchdoc/0411U006298 [18] Bykov, V.Y.: Distance education: relevance, features and principles, ways of development and scope of application. In: Informatsiine zabezpechennia navchalno-vykhovnoho protsesu: innovatsiini zasoby i tekhnolohii [Information support of the educational process: innovative tools and technologies], pp. 77–92, Atika, Kyiv (2005), URL https://lib.iitta.gov.ua/5696/ [19] Bykov, V.Y.: Informatyzatsiia osvity [Informatization of education]. In: Kremen, V.H. (ed.) Entsyklopediia osvity [Encyclopedia of Education], pp. 360–362, Yurinkom Inter, Kyiv (2008), URL https://lib.iitta.gov.ua/2475/ [20] Bykov, V.Y.: Models of the open education organizational systems. Atika, Kyiv (2009), URL https://lib.iitta.gov.ua/845/ [21] Bykov, V.Y.: ICT-outsourcing and new functions of ICT departments of educational and scientific institutions. Information Technologies and Learning Tools 30(4) (Sep 2012), https://doi.org/10.33407/itlt.v30i4.717 [22] Bykov, V.Y.: Problemy ta perspektyvy informatyzatsii systemy osvity v Ukraini [Problems and prospects of informatization of education system in Ukraine]. Naukovyi chasopys NPU imeni M.P. Drahomanova. Seriia 2. Kompiuterno-oriientovani systemy navchannia (13 (20)), 3–18 (Feb 2020), URL https://sj.npu.edu.ua/index.php/kosn/article/view/284 [23] Bykov, V.Y., Shyshkina, M.P., Lavrentieva, H.P., Demianenko, V.M., Lapinskyi, V.V., Zaporozhchenko, Y.H., Pirko, M.V.: Proekt polozhennia pro elektronni osvitni resursy [The draft provisions on electronic educational resources] (2013), URL http://lib.iitta.gov.ua/1041/1/Polozennja-IITZN. pdf [24] Cabinet of Ministers of Ukraine: State standard of basic and complete general secondary education (2011), URL https://zakon.rada.gov.ua/laws/show/1392-2011-%D0%BF#n9 [25] ChemCollective: Virtual Labs (2017), URL https://chemcollective.org/vlabs [26] Dashevskii, V.G.: Konformatcionnyi analiz organicheskikh molekul [Conformational analysis of organic molecules]. Khimiia, Moscow (1982) [27] De Schrijver, E.: Building research competences in secondary school students through hands-on earth and space science education projects. In: European Space Agency, (Special Publication) ESA SP, vol. 721 SP, pp. 541–545 (2013) [28] Derkach, T.M.: The origin of misconceptions in inorganic chemistry and their correction by computer modelling. Journal of Physics: Conference Series 1840(1), 012012 (mar 2021), https://doi.org/10.1088/1742-6596/1840/1/012012236 [29] Dovgiallo, A.M.: Adaptatcii zadacha [Adaptation problem]. In: Gritcenko, V.I., Dovgiallo, A.M., Savelev, A.I. (eds.) Kompiuternaia tekhnologiia obucheniia: slovar-spravochnik [Computer technology of education: a dictionary-guide], pp. 68–69, Naukova dumka, Kiev (1992) [30] Forment, M.A.: A social constructionist approach to learning communities: Moodle. In: Lytras, M.D., Naeve, A. (eds.) Open Source for Knowledge and Learning Management: Strategies Beyond Tools, pp. 369–381, IGI Global (2006), https://doi.org/10.4018/978-1-59904-117-9.ch013 [31] Fridman, L.M.: Nagliadnost i modelirovanie v obuchenii [Visualization and Simulation in training]. No. 6 in Novoe v zhizni, nauke, tekhnike. Seriia «Pedagogika i psikhologiia» [New at life, science, technology. A series of «Pedagogy and Psychology»], Znanie, Moscow (1984) [32] Furnham, A.: HR Professionals’ Beliefs About, and Knowledge of, Assessment Techniques and Psychometric Tests. International Journal of Selection and Assessment 16(3), 300–305 (2008), https://doi.org/10.1111/j.1468-2389.2008.00436.x [33] Garay-Argandona, R., Rodriguez-Vargas, M.C., Hernandez, R.M., Carranza-Esteban, R., Turpo, J.E.: Research competences in university students in virtual learning environments. Cypriot Journal of Educational Sciences 16(4), 1721–1736 (2021), https://doi.org/10.18844/cjes.v16i4.6031 [34] Genkal, S.: Formation of substantive competence of pupils of specialized classes at biology lessons. Pedahohichni nauky: teoriia, istoriia, innovatsiini tekhnolohii (4), 127–135 (2013), URL http://nbuv.gov.ua/UJRN/pednauk_2013_4_17 [35] Golenova, I.A., Zhukova, S.I.: Vozmozhnosti ispolzovaniia SDO “Moodle” v uchebnom protcesse. In: Tretia mizhnarodna naukovo-praktichna konferentciia “MoodleMoot Ukraine 2015. Teoriia i praktika vikoristannia sistemi upravlinnia navchanniam Moodle” (Kyiv, KNUBA, 21-22 travnia 2015 r.), Kyiv (2015), URL https://2015.moodlemoot.in.ua/course/view.php?id=77 [36] Gonzalez Rodero, L.: Seminar on Education in European Innovative Schools during COVID-19 Lockdown: The Collaborative Work with Wikis. In: Eighth International Conference on Technological Ecosystems for Enhancing Multiculturality, p. 901–906, TEEM’20, Association for Computing Machinery, New York, NY, USA (2020), ISBN 9781450388504, https://doi.org/10.1145/3434780.3436686 [37] Gudilina, S.I.: Nagliadnost mediaobrazovatelnykh tekhnologii. In: Gudilina, S.I., Tikhomirova, K.M., Rudakova, D.T. (eds.) Obrazovatelnye tekhnologii XXI veka. OT’08, pp. 8–16, Izd-vo In-ta soderzhaniia i metodov obucheniia RAO, Moscow (2008), URL https://rudocs.exdat.com/docs/index-267457.html [38] Hurevych, R.S.: Informatsiino-telekomunikatsiini tekhnolohii v osviti (ITKT) [Information and telecommunication technologies in education (ITKT)]. In: Kremen, V.H. (ed.) Entsyklopediia osvity [Encyclopedia of Education], pp. 364–365, Yurinkom Inter, Kyiv (2008) [39] Husaruk, N.I.: Informatsiini tekhnolohii v navchanni khimii [Information technology in learning chemistry]. Biolohiia i khimiia v shkoli (5), 13–15 (2010) [40] Ivakhnenko, E.L., Margulis, E.D., Strizhak, A.E.: Uchebnaia igra [Training game]. In: Gritcenko, V.I., Dovgiallo, A.M., Savelev, A.I. (eds.) Kompiuternaia tekhnologiia obucheniia: slovar-spravochnik [Computer technology of education: a dictionary-guide], pp. 548–553, Naukova dumka, Kiev (1992) [41] Kiv, A.E., Merzlykin, O.V., Modlo, Y.O., Nechypurenko, P.P., Topolova, I.Y.: The overview of software for computer simulations in profile physics learning. CTE Workshop Proceedings 6, 352–362 (Mar 2019), https://doi.org/10.55056/cte.396 [42] Komissarova, E.I., Margulis, E.D., Mikheeva, L.E., Soroko, V.N.: Individualizatciia obucheniia [Personalisation of learning]. In: Gritcenko, V.I., Dovgiallo, A.M., Savelev, A.I. (eds.) Kompiuternaia tekhnologiia obucheniia: slovar-spravochnik [Computer technology of education: a dictionary-guide], pp. 214–217, Naukova dumka, Kiev (1992) [43] Kryva, M.V.: Formation of pupil’s creative personality in research activity (on the material of the natural subject). The thesis for the Degree of Candidate of Pedagogical Sciences in the speciality 13.00.09 – training theory, Ternopil Volodymyr Hnatiuk National Pedagogical University, Ternopil (2014), URL https://nrat.ukrintei.ua/searchdoc/0414U003885 [44] Kunat, E.N., Sinitca, E.M.: Adaptivnaia obuchaiushchaia programma [The adaptive training program]. In: Gritcenko, V.I., Dovgiallo, A.M., Savelev, A.I. (eds.) Kompiuternaia tekhnologiia obucheniia: slovar-spravochnik [Computer technology of education: a dictionary-guide], p. 70, Naukova dumka, Kiev (1992) [45] Lancashire, R.J.: Project Wonderland at the Chemistry Department, UWI-Mona (2018), URL http://wwwchem.uwimona.edu.jm/WL/ [46] Lewis, S.: Using ICT to enhance teaching and learning in chemistry. Royal Society of Chemistry, London (2004) [47] Lexico.com: WIKI \| Meaning & Definition for UK English (2021), URL https://www.lexico.com/definition/wiki [48] Likarchuk, A.: Osnovni aspekty suchasnykh pedahohichnykh tekhnolohii [Key aspects of modern educational technologies]. Biolohiia i khimiia v shkoli (2), 26–28 (2008) [49] Lobanov, I.I.: Adaptivnost sistemy obucheniia [Adaptivity of learning system]. In: Gritcenko, V.I., Dovgiallo, A.M., Savelev, A.I. (eds.) Kompiuternaia tekhnologiia obucheniia: slovar-spravochnik [Computer technology of education: a dictionary-guide], p. 71, Naukova dumka, Kiev (1992) [50] Lozova, V.I.: Samostiina robota [Independent work]. In: Kremen, V.H. (ed.) Entsyklopediia osvity [Encyclopedia of Education], pp. 803–804, Yurinkom Inter, Kyiv (2008) [51] Maksymenko, S.: Psykholohichnyi suprovid profilnoho navchannia: teoretychni osnovy. Dyrektor shkoly, litseiu, himnazii (5/6), 27–33 (2005) [52] Melnychenko, V.: Dystantsiine navchannia [Distance learning]. Dyrektor shkoly, litseiu, himnazii (5), 49–52 (2010)238 [53] Mindeeva, E.O.: Organizatciia uchebno-issledovatelskoi deiatelnosti po geografii uchashchikhsia profilnoi shkoly. Dis. ... kandidata pedagogicheskikh nauk : 13.00.02 – teoriia i metodika obucheniia i vospitaniia (geografiia, uroven obshchego obrazovaniia), Rossiiskii gosudarstvennyi pedagogicheskii universitet im. A. I. Gertcena, Sankt-Peterburg (2010), URL https://new-disser.ru/_avtoreferats/01004892082.pdf [54] Ministry of Education and Science of Ukraine: Concept of profile education in high school (2013), URL https://zakon.rada.gov.ua/rada/show/v1456729-13#Text [55] Ministry of Education and Science of Ukraine: Regulations on distance learning (2013), URL https://zakon.rada.gov.ua/laws/show/z0703-13#Text [56] Ministry of Education and Science of Ukraine: Changes to the Regulation on Distance Learning (2015), URL https://zakon.rada.gov.ua/laws/show/z0923-15 [57] Model Science Software: Model ChemLab (2021), URL https://modelscience.com/products.html [58] Moroz, O.: Model. In: Filosofskyi entsyklopedychnyi slovnyk [Encyclopedic Dictionary of Philosophy], p. 391, Abrys, Kyiv (2002), URL https://archive.org/details/filosofskyi_entsyklop/page/390/mode/2up [59] Morozov, M.N., Tanakov, A.I., Gerasimov, A.V., Bystrov, D.A., Tcvirko, V.E., Dorofeev, M.: Razrabotka virtualnoi khimicheskoi laboratorii dlia shkolnogo obrazovaniia [Development of virtual chemistry lab for school education]. Educational Technology & Society 7(3), 155–164 (2004), URL https://cyberleninka.ru/article/n/razrabotka-virtualnoy-himicheskoy-laboratorii-dlya-shkolnogo-obrazovaniya [60] Nechipurenko, P.: The system of research competencies of high school students at chemistry profile learning. Bulletin of the Cherkasy Bohdan Khmelnytsky National University. Series “Pedagogical Sciences” (7) (Jun 2017), URL https://ped-ejournal.cdu.edu.ua/article/view/1600 [61] Nechypurenko, P., Selivanova, T., Chernova, M.: Using the Cloud-Oriented Virtual Chemical Laboratory VLab in Teaching the Solution of Experimental Problems in Chemistry of 9th Grade Students. In: Ermolayev, V., Mallet, F., Yakovyna, V., Kharchenko, V.S., Kobets, V., Kornilowicz, A., Kravtsov, H., Nikitchenko, M.S., Semerikov, S., Spivakovsky, A. (eds.) Proceedings of the 15th International Conference on ICT in Education, Research and Industrial Applications. Integration, Harmonization and Knowledge Transfer. Volume II: Workshops, Kherson, Ukraine, June 12-15, 2019, CEUR Workshop Proceedings, vol. 2393, pp. 968–983, CEUR-WS.org (2019), URL http://ceur-ws.org/Vol-2393/paper_329.pdf [62] Nechypurenko, P., Selivanova, T., Chernova, M., Evangelist, O., Modlo, Y., Soloviev, V.: Using the Virtual Chemical Laboratories in Teaching the Solution of Experimental Problems in Chemistry of 9th Grade Students While Studying the Topic “Solutions”. In: Proceedings of the 1st Symposium on Advances in Educational Technology - Volume 1: AET, pp. 319–335, INSTICC, SciTePress (2022), ISBN 978-989-758-558-6, https://doi.org/10.5220/0010924100003364 [63] Nechypurenko, P., Semerikov, S.: VlabEmbed - the New Plugin Moodle for the Chemistry Education. In: Ermolayev, V., Bassiliades, N., Fill, H., Yakovyna, V., Mayr, H.C., Kharchenko, V.S., Peschanenko, V.S., Shyshkina, M., Nikitchenko, M.S., Spivakovsky, A. (eds.) Proceedings of the 13th International Conference on ICT in Education, Research and Industrial Applications. Integration, Harmonization and Knowledge Transfer, ICTERI 2017, Kyiv, Ukraine, May 15-18, 2017, CEUR Workshop Proceedings, vol. 1844, pp. 319–326, CEUR-WS.org (2017), URL http://ceur-ws.org/Vol-1844/10000319.pdf [64] Nechypurenko, P.P.: Rozvytok doslidnytskykh kompetentnostei uchniv u profilnomu navchanni khimii. In: Radkevych, V.O., Petrenko, L.M. (eds.) Rozvytok doslidnytskoi kompetentnosti molodykh naukovtsiv u konteksti harmonizatsii system pidhotovky Ph. D. v YeS : materialy II Vseukrainskoho naukovo-praktychnoho seminaru, Kyiv, 30 sichnia 2016 r., pp. 63–66, Kyiv (2016), URL https://tinyurl.com/dpffcv5f [65] Nechypurenko, P.P.: Teaching and research activities of students in chemistry profile school as a means of formation of research competencies. New computer technology 14, 135–136 (Jun 2016), https://doi.org/10.55056/nocote.v14i0.528 [66] Nechypurenko, P.P., Semerikov, S.O., Tomilina, L.I.: Theoretical and methodical foundations of using ICT as a tools of forming the senior pupils’ research competencies in the chemistry profile learning. Kryvyi Rih National University, Kryvyi Rih (2018), URL https://books.google.nl/books?id=_ntIDwAAQBAJ [67] Nentwig, J., Kreuder, M., Morgenstern, K.: Lehrprogramm Chemie I. Wiley-VCH, 6 edn. (2008) [68] Ostroverkhova, N.M.: Analiz uroku : kontseptsii, metodyky, tekhnolohii. INKOS, Kyiv (2003) [69] Otto, M., Wegscheider, W.: New trends in teaching Analytical Chemistry: How to present COBAC (Computer Based Analytical Chemistry). Fresenius’ Journal of Analytical Chemistry 337(2), 238–240 (Jan 1990), ISSN 1432-1130, https://doi.org/10.1007/BF00322405 [70] Pak, M.S.: Didaktika khimii. TRIO, Sankt-Peterburg, 2 edn. (2012), URL https://mspak.herzen.spb.ru/wp-content/uploads/2013/12/dh.pdf [71] Pak, M.S., Toletova, M.K.: Testirovanie v upravlenii kachestvom khimicheskogo obrazovaniia. Izdatelstvo RGPU im. A. I. Gertcena, Sankt-Peterburg (2002), URL https://mspak.herzen.spb.ru/wp-content/uploads/2013/12/t.pdf [72] Peishoff, C.E.: Computer-assisted mechanistic evaluation of organic reactions (CAMEO). Ph.D. thesis, Purdue University (1984), URL https://docs.lib.purdue.edu/dissertations/AAI8500427/ [73] Petrushin, V.A.: Ekspertnaia obuchaiushchaia sistema [Expert Training System]. In: Gritcenko, V.I., Dovgiallo, A.M., Savelev, A.I. (eds.) Kompiuternaia tekhnologiia obucheniia: slovar-spravochnik [Computer technology of education: a dictionary-guide], pp. 602–605, Naukova dumka, Kiev (1992) [74] Pidkasistyi, P.I. (ed.): Pedagogy. Ped. obshhestvo Rossii, Moscow, 3 edn. (1998) [75] President of Ukraine: National Strategy for Development of Education in Ukraine for the period till 2021 (2013), URL https://zakon.rada.gov.ua/laws/show/344/2013 [76] Rakov, S., Gorokh, V., Osenkov, K.: Mathematics, computer mathematical systems, creativity, art. pp. 253–279, IGI Global (2009), https://doi.org/10.4018/978-1-60566-352-4.ch015 [77] Robinson, J.: Virtual laboratories as a teaching environment: A tangible solution or a passing novelty? In: 3rd Annual CM316 Conference on Multimedia Systems, based at Southampton University (2003), URL https://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.11.6522&rep=rep1&type=pdf [78] Rudenko, V.D.: Informatsiine suspilstvo [Information society]. In: Kremen, V.H. (ed.) Entsyklopediia osvity [Encyclopedia of Education], pp. 363–364, Yurinkom Inter, Kyiv (2008) [79] Sakhno, T., Dzhurka, H., Pustovit, S.: Internet – dzherelo khimichnoi informatsii [Internet – a source of chemical information]. Biolohiia i khimiia v shkoli (3), 19 (2002) [80] Salmento, H., Murtonen, M., Kiley, M.: Understanding Teacher Education Students’ Research Competence Through Their Conceptions of Theory. Frontiers in Education 6 (2021), ISSN 2504-284X, https://doi.org/10.3389/feduc.2021.763803 [81] Sanger, M.J., Brincks, E.L., Phelps, A.J., Pak, M.S., Lyovkin, A.N.: A comparison of secondary chemistry courses and chemistry teacher preparation programs in Iowa and Saint Petersburg, Russia. Journal of Chemical Education 78(9), 1275 – 1280 (2001), https://doi.org/10.1021/ed078p1275 [82] Semerikov, S.O., Teplytskyi, I.O., Yechkalo, Y.V., Kiv, A.E.: Computer Simulation of Neural Networks Using Spreadsheets: The Dawn of the Age of Camelot. In: Kiv, A.E., Soloviev, V.N. (eds.) Proceedings of the 1st International Workshop on Augmented Reality in Education, Kryvyi Rih, Ukraine, October 2, 2018, CEUR Workshop Proceedings, vol. 2257, pp. 122–147, CEUR-WS.org (2018), URL http://ceur-ws.org/Vol-2257/paper14.pdf [83] Settle, F.A.: The application of expert systems in the general chemistry laboratory. Journal of Chemical Education 64(4), 340–345 (1987), https://doi.org/10.1021/ed064p340 [84] Simpson, P.: Basic Concepts in Organic Chemistry: A programmed learning approach. Chapman & Hall, London (1994) [85] Teplytskyi, I.O.: Rozvytok tvorchykh zdibnostei shkoliariv zasobamy kompiuternoho modeliuvannia [Development of pupils’ creative capacities by means of computer simulation]. The thesis for the degree of candidate of pedagogical sciences on speciality 13.00.02 – theory and methods of teaching informatics, Kryvyi Rih State Pedagogical University (2000), https://doi.org/10.31812/0564/1599 [86] Tkachuk, V., Yechkalo, Y.V., Semerikov, S., Kislova, M., Khotskina, V.: Exploring Student Uses of Mobile Technologies in University Classrooms: Audience Response Systems and Development of Multimedia. In: Sokolov, O., Zholtkevych, G., Yakovyna, V., Tarasich, Y., Kharchenko, V., Kobets, V., Burov, O., Semerikov, S., Kravtsov, H. (eds.) Proceedings of the 16th International Conference on ICT in Education, Research and Industrial Applications. Integration, Harmonization and Knowledge Transfer. Volume II: Workshops, Kharkiv, Ukraine, October 06-10, 2020, CEUR Workshop Proceedings, vol. 2732, pp. 1217–1232, CEUR-WS.org (2020), URL http://ceur-ws.org/Vol-2732/20201217.pdf [87] Tumasheva, O.V., Shashkina, M.B., Shkerina, L.V., Valkova, Y.E.: Elective courses for training the mathematics teachers to realise STEM approach. Journal of Physics: Conference Series 1691(1), 012225 (nov 2020), https://doi.org/10.1088/1742-6596/1691/1/012225 [88] Velychko, L., Fitsailo, S.: Instruktyvno-metodychni rekomendatsii shchodo vyvchennia khimii u 2010/2011 navchalnomu rotsi [Instructions and guidelines for the study of chemistry in the 2010/2011 academic year]. Biolohiia i khimiia v shkoli [Biology and chemistry at school] (5), 7–10 (2010) [89] Verbytskyi, V.V.: Doslidnytska kompetentnist starshoklasnykiv yak zasib formuvannia osobystosti. In: Sukhomlynska, O.V., Bekh, I.D., Pustovit, H.P., Melnyk, O.V. (eds.) Suchasnyi vykhovnyi protses: sutnist ta innovatsiinyi potentsial Materialy zvit. nauk.-prakt. konf. In-tu problem vykhovannia NAPN Ukrainy za 2011 rik, vol. 2, pp. 44–47, Typovit, Ivano-Frankivsk (2012), URL https://lib.iitta.gov.ua/4453/ [90] Voronkin, O.S.: Osnovy vykorystannia informatsiino-kompiuternykh tekhnolohii v suchasnii vyshchii shkoli. LDIKM, Luhansk (2011), URL http://tdo.at.ua/voronkin/ikt.pdf [91] Waight, N., Gillmeister, K.: Teachers and Students’ Conceptions of Computer-Based Models in the Context of High School Chemistry: Elicitations at the Pre-intervention Stage. Research in Science Education 44(2), 335–361 (Apr 2014), ISSN 1573-1898, https://doi.org/10.1007/s11165-013-9385-7 [92] Zhaldak, M.I.: Problemy informatyzatsii navchalnoho protsesu v serednikh i vyshchykh navchalnykh zakladakh [Problems of informatization of educational process in secondary and higher education]. Kompiuter v shkoli ta simi (3), 8–15 (2013), URL https://ktoi.fi.npu.edu.ua/images/files/problemy_informatuzazii_navchalnogo_procesu.pdf [93] Zhuk, Y.O.: Zasoby navchannia [Learning tools]. In: Kremen, V.H. (ed.) Entsyklopediia osvity [Encyclopedia of Education], pp. 359–360, Yurinkom Inter, Kyiv, 2 edn. (2021), URL https://lib.iitta.gov.ua/731245/ [94] Zolotov, I.A., Vershinin, V.I.: Istoriia i metodologiia analiticheskoi khimii [History and methodology of analytical chemistry]. Akademiia, Moscow, 2 edn. (2008)
URI (Уніфікований ідентифікатор ресурсу):	https://journal.kdpu.edu.ua/ped/article/view/4738 https://doi.org/10.31812/educdim.4738 http://elibrary.kdpu.edu.ua/xmlui/handle/123456789/7031
ISSN:	2708-4612
Розташовується у зібраннях:	Кафедра інформатики та прикладної математики

Файли цього матеріалу:

Файл	Опис	Розмір	Формат
EducDim_4738_Nechypurenko_et_al.pdf		513.15 kB	Adobe PDF	Переглянути/Відкрити

Показати повний опис матеріалу Перегляд статистики

Усі матеріали в архіві електронних ресурсів захищені авторським правом, всі права збережені.