Öğrenme Güçlüğü Olan Öğrencilerin Matematik Dersi STEM Etkinliklerinin Değerlendirilmesi

Year 2025, Issue: 13, 807 - 836

Kadriye Uçar , Havva Aysun Karabulut , Ahmet Serhat Uçar

https://doi.org/10.56720/mevzu.1585748

Abstract

Bu araştırmada, öğrenme güçlüğü olan öğrencilere örüntü konusunun STEM etkinlikleriyle öğretiminin değerlendirilmesi amaçlanmıştır. Çalışmada nitel araştırma yöntemlerinden çoklu durum çalışması deseni kullanılmıştır. Araştırmanın katılımcıları üçüncü sınıfta öğrenim gören, tam zamanlı kaynaştırma eğitimi alan, öğrenme güçlüğü tanısı almış, üç öğrenciden oluşmaktadır. Araştırma verileri gözlemler, görüşmeler, görüntü kayıtları, STEM becerileri rubriği, ürün değerlendirme formu ve başarı testleriyle toplanmıştır. Veriler içerik analizi ve betimsel istatistikle analiz edilmiştir. Araştırma sonucunda öğrenme güçlüğü olan öğrencilerin akademik başarılarında artış sağladığı, etkinlik amacı doğrultusunda tasarladıkları materyallerde matematikte örüntü becerilerini kullanabildikleri, fen alanında bilgilerini materyale yansıtabildikleri ve makasla kesme, yapıştırma gibi mühendislikle ilgili ince motor becerilerde yeterli oldukları görülmüştür. Ancak, ölçüm yapma, hizalama gibi matematik becerileri ve teknolojiden yararlanma konusunda yetersiz oldukları belirlenmiştir. Uygulama sonunda öğrencilerle gerçekleştirilen görüşmelerin analizi doğrultusunda öğrenciler etkinlikleri eğlenceli bulduklarını, daha çok materyali tasarlarken ve çizim yaparken zorlandıklarını, en çok boyama yaparken ve örüntü yaparken keyif aldıklarını ve tasarladıkları ürünlerde fen, matematik, mühendislik ve teknolojiden faydalandıklarını dile getirmişlerdir. Araştırmanın sonucunda STEM etkinliklerinin kullanımına yönelik matematikle ilgili farklı konularda veya farklı yetersizlik gruplarıyla çalışmalar yapılması önerilmiştir.

Keywords

STEM Etkinlikleri, Matematik Becerileri, Örüntü, Öğrenme Güçlüğü.

Ethical Statement

Bolu Abant İzzet Baysal Üniversitesi, Sosyal Bilimlerde İnsan Araştırmaları Etik Kurulu 07.05.2023 tarihli ve 2023/04 toplantısında NO. 2023/234 karar ile Etik Kurulu Onay izni alınmıştır

Evaluation of Mathematics Course STEM Activities of Students with Learning Disabilities

Abstract

This study aimed to evaluate the teaching of patterns to students with learning disabilities through STEM activities. The study employed a qualita-tive multiple case design, one of the qualitative research approaches. The participants were three students diagnosed with learning disabilities receiv-ing fully inclusive education in a third-grade classroom at a public school. The data were collected through observations, interviews, video recordings, the STEM Skills Rubric, the Product Evaluation Form, achievement tests and analyzed using descriptive statistics and content analysis. The findings re-vealed that STEM activities contributed to increased academic achievement among students with learning disabilities. The students could utilize their patterning skills in mathematics and reflect their knowledge of science in the materials they designed. Additionally, they demonstrated proficiency in fine motor skills related to engineering, such as cutting with scissors and gluing. However, the students needed to improve in mathematical skills such as measurement and alignment and utilizing technology. The analysis of inter-views conducted with the students at the end of the implementation indi-cated that the students found the activities enjoyable. They reported experi-encing the most difficulty while designing and drawing materials but de-rived the most enjoyment from coloring and creating patterns. The students also stated that they benefited from science, mathematics, engineering, and technology in their designed products. Based on the findings, further studies are recommended on using STEM activities in different mathematical topics or with various disability groups.

Keywords

STEM Activities, Mathematics Skills, Pattern, Learning Disabilities.

Ethical Statement

Bolu Abant İzzet Baysal University, Human Research Ethics Committee in Social Sciences Ethics Approval permission was obtained with the decision NO. 2023/234 at the 2023/04 meeting dated 07.05.2023.

References

• Akay, Mustafa. The Development of Mathematics Based STEM Activities to Be Used in the Education of Gifted Students. Erzurum: Atatürk Üniversitesi, 2018.
• Akcay Malcok, Beyza - Ceylan, Remziye. “The Effects of STEM Activities on the Problem-Solving Skills of 6- Year-Old Preschool Children.” European Early Childhood Education Research Journal 30/3 (May 4, 2022), 423–436. https://doi.org/10.1080/1350293X.2021.1965639
• Alan, Ümran. Investigation of the Effectiveness of STEM Education Program for Preschoolers. Ankara: Hacettepe Üniversitesi, 2020.
• Alıcı, Mısra. Effect of SSTEM Instruction on Attitude Career Perception and Ca-reer Interest in a Problem Based Learning Environment and Student Opin-ions. Kırıkkale: Kırıkkale Üniversitesi, 2018.
• Asghar, Anila et al. “Learning in Science, Technology, Engineering, and Mathematics: Supporting Students with Learning Disabilities.” Volume 58, Issue 3, Pages 238 - 249 58/3 (August 1, 2017), 238–249. https://doi.org/10.1037/cap0000111
• Ayverdi, Leyla. Usage of Technology, Engineering and Mathematics in Science Education for Gifted Students: STEM Approach. Balıkesir: Balıkesir Ün-iversitesi, 2018.
• Balçın, Muhammed Doğukan - Yıldırım, Mehtap. “Kaynaştırma Öğrencil-erinin Fen Bilimleri Dersi STEM Çalışmalarının Değerlendirilmesi.” An-kara Üniversitesi Eğitim Bilimleri Fakültesi Özel Eğitim Dergisi 22/2 (June 1, 2021), 307–341. https://doi.org/10.21565/OZELEGITIMDERGISI.660695
• Barus, Yohannes Kurniawan - Djukri, Djukri. “Pengembangan Buku Teks Tematık Tema Permaınan Untuk Kelas Iıı Sdn Trıdadı Sleman Yogya-karta.” Jurnal Prima Edukasia 1/2 (July 1, 2013), 222–234. https://doi.org/10.21831/JPE.V1I2.2638
• Biçer, Adem. The Effect of Stem Approach Based Electrical Circuit Elements Teaching on the Academic Achievement of 5th-Grade Students with Specific Learning Disabilities. Aksaray: Aksaray Üniversitesi, 2019.
• Bouck, Emily - Satsangi, Rajiv. “Maths Assistive Technology to Support In-clusion.” International Perspectives on Inclusive Education 14 (January 1, 2020), 51–67. https://doi.org/10.1108/S1479-363620200000014007
• Catterall, Lisa. “A Brief History of STEM and STEAM from an Inadvertent Insider.” STEAM 3/1 (December 2017), 1– 13. https://doi.org/10.5642/steam.20170301.05
• Çevik, Mustafa et al. “Learning With STEM Is Not Difficult At All!” Journal of STEAM Education 6/1 (January 1, 2023), 42–60. https://doi.org/10.55290/STEAM.1177432
• Chang, Shu Hsuan et al. “A Science, Technology, Engineering and Mathe-matics Course with Computer- Assisted Remedial Learning System Support for Vocational High School Students.” Journal of Baltic Science Education 14/5 (November 1, 2015), 641–654. https://doi.org/10.33225/jbse/15.14.641
• Das, Binoy - Pal, Jayanta. “Exploring the Challenges and Opportunities of Making STEM More Accessible to Specially-Abled Persons Using Assis-tive Technology.” Lecture Notes in Networks and Systems 1023 LNNS (2024), 497–511. https://doi.org/10.1007/978-981-97-3604-1_34
• Davis, Kimberly E.Bryant. “The Need for STEM Education in Special Educa-tion Curriculum and Instruction.” S.T.E.M. Education: Strategies for Teaching Learners with Special Needs. 1–19. Nova Science Publishers, Inc., 2014.
• Dereli, Emre. The Effects of Robotic Coding, STEM and Technology Education on Students in the Middle Level in Terms of Technological Leadership: The Case of Muş Province. İzmir: Dokuz Eylül Üniversitesi, 2021.
• Eskici, G. Y. Fen bilgisi öğretmen adaylarının mühendislik tasarım becerile-rinin incelenmesi. Journal of Computer and Education Research, 11(22), 2023, 924-951.
• Evmenova, Anna S. - Behrmann, Michael M. “Communication Technology Integration in the Content Areas for Students with High-Incidence Dis-abilities: A Case Study of One School System.” K-12 Education: Concepts, Methodologies, Tools, and Applications. 1/58–85. IGI Global, 2013. https://doi.org/10.4018/978-1-4666-4502- 8.ch005
• Fajrina, Suci et al. “Science, Technology, Engineering, and Mathematics (STEM) as a Learning Approach to Improve 21st Century Skills: A Re-view.” International Journal of Online and Biomedical Engineering 16/7 (January 1, 2020), 95–104. https://doi.org/10.3991/ijoe.v16i07.14101
• Gay, L, R, et al. Educational Research: Competencies for Analysis and Applica-tions. Pearson, 9th Ed., 2012.
• Green, Satasha L. S.T.E.M. Education: Strategies for Teaching Learners with Special Needs. S.T.E.M. Education: Strategies for Teaching Learners with Special Needs. Nova Science Publishers, Inc., 2014.
• Hynes, M., Portsmore, M., Dare, E., Milto, E., Rogers, C., Hammer, D. & Carberry, A. (2011). Infusing engineering design into high school STEM courses. https://digitalcommons.usu.edu/cgi/viewcontent.cgi? article=1165&context=ncete_publications
• Hwang, Jiwon - Taylor, Jonte C. “Stemming on STEM: A STEM Education Framework for Students with Disabilities.” Journal of Science Education for Students with Disabilities 19/1 (2016), 39–49.
• Jindal, Priya et al. STEM: A Multi-Disciplinary Approach to Integrate Pedagog-ies, Inculcate Innovations and Connections. STEM: A Multi-Disciplinary Approach to Integrate Pedagogies, Inculcate Innovations and Connections. Nova Science Publishers, Inc., 2023. https://doi.org/10.52305/UXLT2425
• Kaplan, Abdullah et al. “Üstün Yetenekli Öğrencilerin Problem Çözmeye Yönelik Yansıtıcı Düşünme Becerilerinin İncelenmesi: Gümüşhane Örneği.” Bayburt Eğitim Fakültesi Dergisi 12/23 (June 28, 2017), 415–435. https://dergipark.org.tr/tr/pub/befdergi/issue/30012/323920
• Karabulut, Alpaslan et al. “Examining the Effectiveness of Reader Strategy in Intellectually Disabled Students’mathematical Problem Solving.” In-ternational Online Journal of Primary Education (IOJPE) 10/2 (2021), 397–414.
• Karabulut, Alpaslan - Özmen, Emine Rüya. “Effect of ‘Understand and Solve!’ Strategy Instruction on Mathematical Problem Solving of Stu-dents with Mild Intellectual Disabilities.” International Electronic Journal of Elementary Education 11/2 (November 2, 2018), 77–90. https://iejee.com/index.php/IEJEE/article/view/644
• Kidd, J. K., Pasnak, R., Gadzichowski, K. M., Gallington, D. A., McKnight, P., Boyer, C. E., & Carlson, A. Instructing first-grade children on pat-terning improves reading and mathematics. Early Education & Develop-ment, 25(1), 2014, 134-151.
• Kolne, Kendall - Lindsay, Sally. “A Systematic Review of Programs and In-terventions for Increasing the Interest and Participation of Children and Youth with Disabilities in STEM Education or Careers.” Journal of Occupational Science 27/4 (October 1, 2020), 525–546. https://doi.org/10.1080/14427591.2019.1692692
• Krawec, Jennifer et al. “The Effects of Cognitive Strategy Instruction on Knowledge of Math Problem-Solving Processes of Middle School Stu-dents with Learning Disabilities.” Learning Disability Quarterly 36/2 (May 1, 2013), 80–92. https://doi.org/10.1177/0731948712463368
• Maryanti, Rina et al. “Science Education for Students with Special Needs in Indonesia: From Definition, Systematic Review, Education System, to Curriculum.” Indonesian Journal of Community and Special Needs Educa-tion 1/1 (March 11, 2021), 1–8. https://doi.org/10.17509/IJCSNE.V1I1.32653
• Metpattarahiran, Chanisara. “STEM Education for Developing Undergrad-uates’ 21st Century Skills.” Journal of Multidisciplinary in Social Sciences, 2021. Accessed November 15, 2024. https://so03.tci- thaijo.org/index.php/sduhs/article/view/268226
• Miles, M. B., & Huberman A. M. Genişletilmiş bir kaynak kitap: Nitel veri ana-lizi (Çev. Ed. S. Akbaba Altun ve A. Ersoy) (3. Baskı). Pegem Akade-mi. 2019.
• Miranda-Casas, Ana et al. “The Application of New Technologies to Solv-ing Maths Problems for Students with Learning Disabilities: The ’Un-derwater School’[Aplicación de Nuevas Tecnologías Con Estudiantes Con Dificultades de Aprendizaje En La Solución de Problemas Ma-temáticos: La ’Escuela Submarina’].” Revista de Neurologia 46/SUPPL (January 1, 2008), S59–S63. https://doi.org/10.33588/rn.46s01.2007662
• Montague, Marjorie. “Mathematics.” Best Practices for the Inclusive Class-room: Scientifically Based Strategies for Success. 205–224. Taylor and Francis, 2021. https://doi.org/10.4324/9781003233237-9
• Murphy, Steve et al. “Sustaining STEM: A Framework for Effective STEM Education across the Learning Continuum.” STEM Education Across the Learning Continuum: Early Childhood to Senior Secondary. 9–28. Springer Singapore, 2020. https://doi.org/10.1007/978-981-15-2821-7_2
• Moss, J., & London McNab, S. (2011). An approach to geometric and numeric patterning that fosters second grade students’ reasoning and generalizing about functions and co-variation. In Early algebraization: A global dia-logue from multiple perspectives (pp. 277-301). Berlin, Heidelberg: Springer Berlin Heidelberg.
• Özçelik, Aybike - Akgündüz, Devrim. “Üstün/Özel Yetenekli Öğrencilerle Yapılan Okul Dışı STEM Eğitiminin Değerlendirilmesi.” Trakya Üniver-sitesi Eğitim Fakültesi Dergisi 8/2 (January 26, 2018), 334–351. https://doi.org/10.24315/TRKEFD.331579
• Özkubat, Ufuk et al. “Mathematical Problem-Solving Processes of Students with Special Needs: A Cognitive Strategy Instruction Model ‘Solve It!’” International Electronic Journal of Elementary Education 12/5 (July 8, 2020), 405–416. https://www.iejee.com/index.php/IEJEE/article/view/1083
• Özkubat, Ufuk - Karabulut, Alpaslan. “Özel Öğrenme Güçlüğü Olan Öğrencilerde Temel Aritmetik Işlem Becerile-Rinin Ev Ortamında Desteklenmesii.” Özel Gereksinimli Çocuğu Olan Anne-Baba El Kitabı Seri-si, Özel Öğrenme Güçlüğü. 101–130. Eğiten Kitap, 2022.
• Pallavi, Natasha. “The Application of Meta-Cognitive, Critical Thinking, Collaborative, Cooperative and Skill Based Learning Strategies in STEM.” STEM: A Multi-Disciplinary Approach to Integrate Pedagogies, In-culcate Innovations and Connections. 108–127. Nova Science Publishers, Inc., 2023.
• Plasman, Jay Stratte - Gottfried, Michael A. “Applied STEM Coursework, High School Dropout Rates, and Students With Learning Disabilities.” Educational Policy 32/5 (July 1, 2018), 664–696. https://doi.org/10.1177/0895904816673738
• Ramesh, Vyshnavi M. “STEM Activities for Toddlers.” ISEC 2017 - Proceed-ings of the 7th IEEE Integrated STEM Education Conference, 85–87. https://doi.org/10.1109/ISECon.2017.7910254
• Sari, Hakan et al. “The Impact of STEAM (STEM + Arts) Activities on Learning Outcomes in Students with Specific Learning Disabilities.” Support for Learning 39/1 (February 1, 2024), 3–21. https://doi.org/10.1111/1467- 9604.12462
• Satsangi, Rajiv et al. “Studying Virtual Manipulatives Paired With Explicit Instruction to Teach Algebraic Equations to Students With Learning Disabilities.” Learning Disability Quarterly 41/4 (November 1, 2018), 227– 242. https://doi.org/10.1177/0731948718769248
• Satsangi, Rajiv et al. “Video Modeling and Explicit Instruction: A Compari-son of Strategies for Teaching Mathematics to Students with Learning Disabilities.” Learning Disabilities Research and Practice 34/1 (February 1, 2019), 35–46. https://doi.org/10.1111/ldrp.12189
• Shamkuwar, Madhavi et al. “A Systematic Literature Review of STEM Edu-cation in Changing National and Global Policies and Procedures.” STEM: A Multi-Disciplinary Approach to Integrate Pedagogies, Inculcate Innovations and Connections. 41–55. Nova Science Publishers, Inc., 2023.
• So, Winnie Wing Mui et al. “Engaging Students with Intellectual Disability in Science, Technology, Engineering, and Mathematics Learning.” Sci-ence Education International 33/1 (January 1, 2022), 25–37. https://doi.org/10.33828/sei.v33.i1.3
• So, Winnie Wing Mui et al. “Teacher Professional Development for STEM Education: Adaptations for Students with Intellectual Disabilities.” Asia-Pacific STEM Teaching Practices: From Theoretical Frameworks to Practices. 83–102. Springer Singapore, 2019. https://doi.org/10.1007/978-981-15-0768-7_6
• So, Winnie Wing Mui et al. “Teachers’ Professional Development with Peer Coaching to Support Students with Intellectual Disabilities in STEM Learning.” Educational Technology and Society 24/4 (January 1, 2021), 86–98.
• Sözbilir, Mustafa - Bülbül, Mustafa, Şahin. “Engelsiz Stem Eğitimi.” Ku-ramdan Uygulamaya STEM+E+A Eğitimi. ed. Salih Çepni. 511–537. Pegem Akademi, 2017.
• Stake, R. E. Multiple case study analysis. New York: The Guilford Press. 2005.
• Tosun, İbrahim, Enes. Influences of Computer-Basical STEM Education on Spe-cial Education Students. Bursa: Bursa Uludağ Üniversitesi, 2019.
• Uğraş, Mustafa. “Determination of the Effects of Problem-Based STEM Ac-tivities on Certain Variables and The Views of the Students.” Interna-tional Online Journal of Educational Sciences 11/Volume 11, Issue 1 (Au-gust 29, 2019), 1–22. https://doi.org/10.15345/IOJES.2019.01.001
• Wei, Xin et al. “High School Math and Science Preparation and Postsecond-ary STEM Participation for Students With an Autism Spectrum Disor-der.” Http://Dx.Doi.Org/10.1177/1088357615588489 32/2 (May 29, 2015), 83–92. https://doi.org/10.1177/1088357615588489
• Wright, Lyndsey Alyssa - Moskal, Barbara M. “Including Children with Disabilities in STEM: An Outreach Program for Dyslexic Students (Re-search to Practice) Strand: Other: Disabilities.” ASEE Annual Conference and Exposition, Conference Proceedings, 2014. Accessed November 15, 2024
• Xie, Jingrong et al. “Integrating Research-Based Practices and Mobile Tech-nology to Support Students with Executive Functioning Challenges in Post-Secondary STEM.” International Journal of Mobile Learning and Or- ganisation 14/2 (January 1, 2020), 184–202. https://doi.org/10.1504/IJMLO.2020.106172
• Yıldırım, Ali - Şimşek, Hasan. “Nitel Araştırmanın Bilimsel Araştırma Gele-neği İçindeki Yeri.” Nitel Araştırma Yöntemleri, 249. https://www.seckin.com.tr/kitap/176755156
• Yin, R. K. Case study research: Design and methods. Thousand Oaks, CA: Sage. 2014.