İlköğretim Matematik Öğretmenliği Koleksiyonu

Permanent URI for this collectionhttps://hdl.handle.net/20.500.11779/1932

Browse

Browsing İlköğretim Matematik Öğretmenliği Koleksiyonu by Author "Birgili, Bengi"

Filter results by typing the first few letters
Now showing 1 - 5 of 5
  • Thumbnail Image
    Article
    Çevrim-İçi Matematik Öğretimi Alan Deneyiminde Teori ve Pratik Arasındaki Mesafe Üzerine Bir İnceleme
    (Mehmet Tekerek, 2025) Ӧlmez, İbrahim; Pekkan, Zelha Tunc; Birgili, Bengi; Taylan, Rukiye Didem
    Geçmiş çalışmalar, öğretmen adaylarının teori ve pratiği birleştirme becerisinin, derste öğrendiklerinipratiğe dökebilmek için artan öneminden bahsetmektedir. Bu çalışma, 23 matematik öğretmenliğiadayının bir matematik öğretmen eğitimi programındaki ders ve çevrim-içi matematik öğretimi alandeneyimlerini birleştirme becerisini incelemiştir. Bu çalışmanın verisini, öğretmen adaylarının birdönem boyu süren çevrim-içi ders verme deneyiminden önce gerçekleşen 24 video-kayıtlı ders planlamatoplantısının transkripleri ve Çevrim-içi Laboratuar Okulu’ndaki çevrim-içi ders anlatımlarından sonragerçekleşen 9 video-kayıtlı tüm sınıfın dahil olduğu tartışma toplantılarının transkripleri kapsamaktadır.Ayrıca, bu çalışmanın verisini öğretmen adaylarının çevrim-içi ders anlatımlarından sonra dersanlatımlarındaki ilginç ve önemli buldukları durumlar üzerine yazdıkları kısa notları da içermektedir.Sonuçlar, öğretmen adaylarının sıklıkla teori ve pratik arasındaki bağlantıları kurmakta zorlandıklarınıgöstermekte ve öğretmen eğitimcilerinin matematik öğretimi alan deneyimleri ödevlerinde daha fazladers entegrasyon fırsatlarını kullanmasını önermektedir. Ders öğretim üyelerinin amaçları, öğretmenadaylarının düşünümleri, ders planları ve tüm sınıfın dahil olduğu tartışma toplantıları gibi birden fazlaveri kaynaklarını kullanan bu çalışma, eğitim araştırması alanındaki var olan mesafenin kapanması içindeğerli bir nitel kanıt sunmaktadır
  • Thumbnail Image
    Article
    Investigating the Appropriateness of a Course Evaluation Model: Preservice Teachers Flipped Learning Experience
    (Anı Yayıncılık, 2025) Birgili, Bengi; Aydın, Utkun; Kurban, Caroline Fell
    Parlett and Hamilton’s (1972) Illuminative Evaluation Model (IEM) was adopted to research course evaluation in flipped learning environments. An integrated data set, including teaching videos, interviews from 17 preservice teachers, and course materials, was collected and analyzed in an educational sciences course. Both quantitative and qualitative data showed that this model, within its learning milieu and instructional systems aspects, had the potential to be a suitable method for instructors to evaluate the quality of their flipped courses. These relationships between the learning milieu and instructional systems provide evidence of the complexity of evaluation. This study demonstrates how the IEM helps uncover the design of a flipped educational sciences course and offers a suitable model for flipped course evaluation. Finally, the implications of this study for general instructional design are discussed.
  • Thumbnail Image
    Article
    Techno-Philosophical and Techno-Pedagogical Implications of a Nonformal Technology and Design Education Model to Empower Youth: T3 Foundation's Deneyap Technology Workshops Program
    (Springer, 2026) Bulut, Mehmet Akin; Kocoglu, Merve; Bas, Fatma Ruveyda; Gulunay, Oksana; Birgili, Bengi
    This mixed-methods analysis explores the DENEYAP Technology Workshops program, launched by the T3 Foundation in 2017, which aims to develop scientific thinking and problem solving at the intersection of teaching technology skills and design thinking among 4th- and 9th- graders through nonformal learning. The study sought to investigate the program's techno-philosophical and techno-pedagogical formation. Data collection involved qualitative interviews with founders (n = 20) and program developers (n = 20). Additionally, to provide a comprehensive understanding of the program from multiple perspectives, lesson plans (n = 11) were analyzed to assess the curriculum, whereas classroom observations (n = 5) offered insights into instructional methods and learner engagement. The findings obtained through theories such as technology, pedagogy and content knowledge; technology philosophy; and design thinking reveal that the harmony between leaders' and instructional teams' visions, and the presence of a solid techno-philosophy in a technology and design education program lead to considerable success; the program's collaboration with official and unofficial institutions provides incalculable benefits; empathizing (needs analysis) stage at design cycle is crucial and yields critical insights; and the program fosters interest and competency in techno-scientific thinking skills among learners. Conversely, indicating areas in need of improvement in the program, continuous trainer professional development is pivotal; infrastructure and material provision are essential, and there is a lack of quality assurance in assessment practices, in other words, the test stage at design cycle. This study of the innovative, practical and skills-based program points to the critical role of nonformal learning in preparing the next generation for a technology-driven future through the intersection of technology and design education immersed in a strong and rigorous techno-philosophical and techno-pedagogical design.
  • Thumbnail Image
    Book Part
    Technology in Assessment
    (Routledge, 2025) Birgili, Bengi; Chue, Kah Loong
    Globally, the evolution of technological trends has inspired the creation of technology-oriented assessments. As these assessments become more ubiquitous in schools, adopting new approaches is vital to ensure that education stays relevant and beneficial to students. Thus, the overall aim of this chapter is to illustrate how assessment processes and tools can be incorporated into future learning-oriented systems, with a particular emphasis on assessment as learning. This chapter will first introduce trajectories in technology-based assessment and highlight current trends in Artificial Intelligence. Second, changes in instructional and assessment approaches will be discussed. As developing metacognitive knowledge and skills is a central aim of assessment as learning, a discussion of metacognition will follow. Third, some recommendations in classroom assessment practices that teachers can undertake will be proposed. Finally, the chapter will conclude with some thoughts on the future intersections between technology and assessment.
  • Thumbnail Image
    Article
    Citation - WoS: 1
    Citation - Scopus: 1
    Technology-Enhanced "gipsci" Approach in Developing Contexts Performs Well at Interest and Curiosity, Yet, Needs Reinforcing at Inquiry Level
    (Routledge Journals, Taylor & Francis Ltd, 2025) Birgili, Bengi; Bulut, Mehmet Akin; Gulunay, Oksana; Kocoglu, Merve; Bas, Fatma Ruveyda
    Numerous studies explore inquiry in science centers, but technology-enhanced science centers' (TeSC) curricula remain relatively nascent. This mixed-methods study explores how the GiPSci model, a technology-enhanced science center program developed in-house by curriculum experts, supports learners' inquiry skills aligned with international standards. Data were collected through learners' products (n = 161), lesson observations (n = 20), train-the-trainer activities (n = 405), expert evaluations (n = 14), and interviews with trainers (n = 10). Findings reveal curiosity and interest scored higher than inquiry, highlighting the challenges of inquiry in tech-enhanced settings. Consensus among trainers, observations, and learners' products points to gaps in fostering inquiry skills in the TeSC program. To enhance GiPSci-like models, collaboration among program designers, trainers, and train-the-trainer providers is essential to better align the technology-enhanced science centers' program with inquiry-based learning.