Technological pedagogical content knowledge
The Technological Pedagogical Content Knowledge (TPACK) framework is an educational model that describes the intersections between technology, pedagogy, and content for the effective integration of technology into teaching. TPACK became popular in the early 2000s.[1][2][3][4]
TPACK divides a teacher's contextual knowledge (XK) in teaching into three broad categories: content knowledge (CK), pedagogical knowledge (PK), and technological knowledge (TK). At the intersection of two categories are more specific forms of knowledge: pedagogical content knowledge (PCK), technological content knowledge (TCK), technological pedagogical knowledge (TPK). At the intersection of all three categories is technological pedagogical content knowledge (TPACK). Contextual knowledge also includes information apart from the three categories, such as an awareness of school policies.
Researchers argue that effective technological integration involves an understanding of the relationships between all three forms of knowledge in a teaching context.[5]
History
[edit]In the early 2000s, scholars noted a lack of theory and conceptual frameworks to inform and guide research and teacher preparation in technology integration.[6] The classic definition of PCK proposed by Shulman included one dynamic and complex relationship between two different knowledge bodies: content knowledge and pedagogical knowledge. Shulman defined PCK as the blend between content and pedagogy, highlighting the teacher's comprehension of how topics should be taught according to students' diverse interests and capabilities.[7]
For five years, Mishra & Koehler conducted an experiment to understand educators’ development of rich technology uses as well as helping them develop their teaching with technology. As a result of this work, they arrived at the Technological, Pedagogical, Content Knowledge (TPCK) model in 2008, later renamed to TPACK.[8][9] The questions of "what the teachers need to know in order to appropriately incorporate technology into their teaching... and how they might develop it"[9] were key to the framework development. In 2019, the Mishra proposed an additional aspect of teacher knowledge, contextual knowledge (XK), which encompasses knowledge of not only the TPACK forms but also organisational and situational constraints, such as school policies and available technologies.[10]
Educators found they needed new skills as new technologies entered the field. Consequently, technology knowledge became an essential feature of teacher knowledge. Scholars proposed different frames about TPACK to promote a particular view, including ways and diverse perspectives on understanding and working with technology in the classroom.[1][2][11][12][13][14] TPACK-based research has led to the emergence of a significant literature body (TPACK Newsletter #44, 2021).
As Herring and colleagues described, the historical development of TPACK provided a conceptualization that both graphically and narratively explained what is studied, and presented the key concepts, factors, or variables and the presumed relationships found between them.[15] Additionally, it scaffolds the application of findings to other contexts that theoreticians, researchers, and practitioners continue to examine.[15]
Definition
[edit]TPACK domains and related subdomains address the complex nature of teaching effectively with appropriate technologies.[9][16] While the different domains and subdomains can be explored as separate skill concepts, domains and subdomains were conceptualized to work in synergistic reciprocity meaning that the knowledge is not entirely separate indicating the intersectionality of each area. Accordingly, the TPACK model consists of three main domains, each containing one subdomain. The purpose of the subdomains is to unpack the broader domain concept by understanding intersections among the three primary knowledge anchors for the overall framework. The main domains are 1. Technological Content Knowledge (TCK); 2. Pedagogical Content Knowledge (PCK), and 3. Technological Pedagogical Knowledge (TPK). The three subdomains are 1. Technological Knowledge (TK); 2. Content Knowledge (CK); and 3. Pedagogical Knowledge (PK). In 2019, Mishra[10] proposed a revised TPACK diagram to emphasize the context in which technology integration occurs by retitling the outer circle as Contextual Knowledge or XK.
Technological Knowledge (TK) addresses how teachers demonstrate professional knowledge of technology. TK considers what is required for teachers to integrate technology tools and resources into their course content and instructional practice. The technology component of TPaCK in Technology is most beneficial for learning when it brings a change in professional teaching practice[17][18] and in designs for learning. For teachers, TK not only addresses knowledge about technology but also knowledge of the skills needed to use technology to effectively plan instruction,[16][19] including with science teachers.[20][21][22][23][24] TK involves understanding cross-platform applications and capabilities as well as how to configure those applications to realize instructional objectives and student learning outcomes. Content Knowledge (CK) is situated within the following definitional parameters of a teacher's knowledge about a particular subject matter and how it is taught and learned.[25] As Shulman[7] noted, CK would include knowledge of concepts, theories, ideas, organizational frameworks, knowledge of evidence and proof, as well as established practices and approaches toward developing such knowledge." For educators, effective content instruction that engages students in higher-order activities using authentic, real-world examples facilitated through technology is the cornerstone of teaching and learning in the 21st century. Thus, educators must not only be thoughtful in the instructional techniques they use to present content but also strategic in the technology selected to teach the subject matter as it may result in positive or negative results in long-term learning and knowledge retention. Pedagogical Knowledge (PK) addresses how teachers demonstrate professional knowledge of pedagogy. PK refers to the specific knowledge about teaching such as approaches or methods of how teachers teach a particular topic or how to scaffold a concept to the diverse interests and abilities of learners. For teachers and educators, an effective teaching method that engages students in higher-order activities using real-world examples facilitated through different learning styles is the cornerstone of teaching and learning in the current era. Accordingly, educators must be thoughtful in the instructional techniques to teach the subject matter as it may have a great impact on long-term learning and knowledge acquisition. Choosing the right technology to enable higher-order thinking within the content, long-term knowledge retention, and facilitate student learning outcomes are paramount within the CK construct. Finally, Context Knowledge (XK) is the umbrella domain that refers to how teachers contextualize implementation based on the overall teaching and learning context.
Strategies for building TPACK
[edit]A wide variety of strategies have been used to develop educators’ TPACK abilities, such as (a) collaborative, design-based lesson planning;[26] (b) the use of technology mapping, game-based learning, and deep-play[27][28] (c) scaffolding the design process;[29][30] and (d) accounting for how teacher's beliefs influence their TPACK.[31] Researchers have found collaborative strategies to be helpful to develop teachers’ TPACK, such as (a) faculty-wide mentoring programs,[32] (b) professional collaboration and teacher talk,[33] (c) collaborative reflection practices,[28] and (d) professional learning communities.[34][35] Teacher education leaders have used the Theory of Action to identify the critical areas as they plan for the effective integration of TPACK into their teacher education and faculty support programs.[15][36]
Measures
[edit]Since its introduction, researchers and professional developers have created a variety of processes and instruments to assess an educator's TPACK,[28][37] such as self-report measures, open-ended questionnaires, performance assessments, interviews, observations, and more.[38][39][40] Widely-used measures such as the Survey of Preservice Teachers’ Knowledge of Teaching and Technology,[41][42][43] the TPACK-21 questionnaire,[44] and the TPACK leadership diagnostic tool,[15][45] have been tested for reliability and validity and applied in a variety of educational settings.
Researchers have made considerable efforts to explore the details of educators’ TPACK through both quantitative[46] and qualitative measures.[47] Qualitative approaches for evaluating TPACK have included classroom observations,[47] the analysis of lesson plans, classroom videos, and interviews.[48] Furthermore, as researchers have sought to better address how the components of XK (including online learning environments and global contexts) influence the development of TPACK, measures of TPACK have begun to include educators’ future intentions to use technology.[49] Additionally, researchers have also considered educators’ self-efficacy alongside TPACK.[50][51][52]
Criticisms
[edit]The TPACK framework has received a number of criticisms, the majority of which are related to the lack of a precise definition. Similar to Shulman's Pedagogical Content Knowledge (PCK), which serves as a foundation for TPACK, scholars have debated whether TPACK is integrative or transformative leading to varied and nuanced perspectives.[33] Furthermore, scholars have debated precise definitions for the seven knowledge domains associated with the TPACK framework,[53] and what differentiates one domain from another varies widely across studies.[53][54] These challenges have led to what has been called "fuzzy boundaries" distinguishing TPACK domains[28][55][56][57][58] that have resulted in even more variations or adaptations of TPACK including TPACK-W for web technologies, G-TPACK for geospatial, TPACK-CT for computational thinking, TPACK-P for TPACK practical, etc. These variations have been considered by some researchers to be misappropriations or conceptual dilution.[59]
A second major area of criticism of TPACK is the lack of reliable assessment instruments, as well as difficulties with existing instruments. Some researchers have cited problems related to participant interpretation of survey items,[52][55][56][60] while others have reported problems with convergence when multiple measures are used.[61][62][63]
A third major area of criticism is related to the implications of TPACK for practice. Some scholars argue that the complexity of the framework makes it difficult to operationalize among both researchers and practitioners.[62] Further, as a framework for teacher knowledge, it is not accompanied by specific recommendations or strategies for how to help develop this body of knowledge for teachers.[37] Finally, scholars have noted that is unclear whether the TPACK framework promotes the type of reform-oriented teaching encouraged in new standards and curricula.[64]
References
[edit]- ^ a b Angeli, C.; Valanides, N. (2005). "Preservice elementary teachers as information and communication technology designers: an instructional systems design model based on an expanded view of pedagogical content knowledge". Journal of Computer Assisted Learning. 21 (4): 292–302. doi:10.1111/j.1365-2729.2005.00135.x. ISSN 1365-2729.
- ^ a b Koehler, Matthew J.; Mishra, Punya (1 March 2005). "What Happens When Teachers Design Educational Technology? The Development of Technological Pedagogical Content Knowledge". Journal of Educational Computing Research. 32 (2): 131–152. doi:10.2190/0EW7-01WB-BKHL-QDYV. ISSN 0735-6331. S2CID 61816983.
- ^ Niess ML. (2005) Preparing teachers to teach science and mathematics with technology: Developing a technology pedagogical content knowledge. Teaching and Teacher Education, 21, 509–523.
- ^ Pierson, Melissa E. (1 June 2001). "Technology Integration Practice as a Function of Pedagogical Expertise". Journal of Research on Computing in Education. 33 (4): 413–430. doi:10.1080/08886504.2001.10782325. ISSN 0888-6504. S2CID 60600573.
- ^ Koehler, M. J., Shin, T. S., & Mishra, P. (2012). How do we measure TPACK? Let me count the ways. In Educational technology, teacher knowledge, and classroom impact: A research handbook on frameworks and approaches (pp. 16–31). IGI Global.
- ^ Angeli, Charoula; Valanides, Nicos; Mavroudi, Anna; Christodoulou, Andri; Georgiou, Kyriakoula (24 October 2014), "Introducing e-TPCK: An Adaptive E-Learning Technology for the Development of Teachers' Technological Pedagogical Content Knowledge", Technological Pedagogical Content Knowledge, Boston, MA: Springer US, pp. 305–317, doi:10.1007/978-1-4899-8080-9_16, ISBN 978-1-4899-8079-3, retrieved 25 June 2021
- ^ a b Shulman LS. (1986) Those who understand: Knowledge growth in teaching. Educational Researcher, 15(4).
- ^ Thompson, Ann D.; Mishra, Punya. "Editors' Remarks". Journal of Computing in Teacher Education. 24: 38–64. doi:10.1080/10402454.2007.10784583 (inactive 31 January 2024).
{{cite journal}}
: CS1 maint: DOI inactive as of January 2024 (link) - ^ a b c Mishra P, Koehler MJ. (2006) Technological pedagogical content knowledge: A framework for teacher knowledge. Teachers College Record, 108(6), 1017–1054.
- ^ a b Mishra, Punya (3 April 2019). "Considering Contextual Knowledge: The TPACK Diagram Gets an Upgrade". Journal of Digital Learning in Teacher Education. 35 (2): 76–78. doi:10.1080/21532974.2019.1588611. ISSN 2153-2974. S2CID 145840154.
- ^ Margerum-Leys, Jon; Marx, Ronald W. (November 2004). "The Nature and Sharing of Teacher Knowledge of Technology in a Student Teacher/Mentor Teacher Pair". Journal of Teacher Education. 55 (5): 421–437. doi:10.1177/0022487104269858. ISSN 0022-4871. S2CID 145578522.
- ^ Hughes, Joan (1997). "The Role of Teacher Knowledge and Learning Experiences in Forming Technology-Integrated Pedagogy". Journal of Technology and Teacher Education: 277–302. ISSN 1059-7069.
- ^ Niess, Margaret L. (2005). "Scaffolding Math Learning with Spreadsheets. Learning Connections—Mathematics". Learning & Leading with Technology. 32 (5): 24. ISSN 1082-5754.
- ^ Harris J, Mishra P, Koehler M. (2009) Teachers' technological pedagogical content knowledge and learning activity types: Curriculum-based technology integration reframed. Journal of Research on Technology in Education, 41(4), 393–416
- ^ a b c d Graziano, Kevin J.; Herring, Mary C.; Carpenter, Jeffrey P.; Smaldino, Sharon; Finsness, Elizabeth S. (11 March 2017). "A TPACK Diagnostic Tool for Teacher Education Leaders". TechTrends. 61 (4): 372–379. doi:10.1007/s11528-017-0171-7. ISSN 8756-3894. S2CID 255308494.
- ^ a b Mishra, P., & Koehler, M. J. (March 2008). Introducing technological pedagogical content knowledge. In annual meeting of the American Educational Research Association (pp. 1–16). http://www.matt-koehler.com/publications/Mishra_Koehler_AERA_2008.pdf
- ^ Papert, S. (1996). Computers in the classroom: Agents of change. The washington post education review, 27.
- ^ Polin, L. & Moe, R. (2015). Locating TPACK in mediated practice. http://profmoe.com/PolinMoe_OnlineTeaching_v1a.pdf
- ^ Bell, Randy L.; Maeng, Jennifer L.; Binns, Ian C. (March 2013). "Learning in context: Technology integration in a teacher preparation program informed by situated learning theory". Journal of Research in Science Teaching. 50 (3): 348–379. Bibcode:2013JRScT..50..348B. doi:10.1002/tea.21075.
- ^ Çalik, Muammer; Özsevgeç, Tuncay; Ebenezer, Jazlin; Artun, Hüseyin; Küçük, Zeynel (June 2014). "Effects of 'Environmental Chemistry' Elective Course Via Technology-Embedded Scientific Inquiry Model on Some Variables". Journal of Science Education and Technology. 23 (3): 412–430. Bibcode:2014JSEdT..23..412C. doi:10.1007/s10956-013-9473-5. ISSN 1059-0145. S2CID 254753485.
- ^ Karadeniz Teknik Üniversitesi; Çalik, Muammer; Aytar, Ayşe (6 June 2013). "Sınıf Öğretmen Adaylarının Öğretmenlik Uygulaması Sürecinde İnsanın Çevreye Etkisi Konusu İle İlgili Pedagojik Alan Bilgilerinin Araştırılması". Educational Sciences: Theory & Practice. doi:10.12738/estp.2013.3.1649.
- ^ Bilici, Sedef Canbazoglu; Guzey, S. Selcen; Yamak, Havva (3 May 2016). "Assessing pre-service science teachers' technological pedagogical content knowledge (TPACK) through observations and lesson plans". Research in Science & Technological Education. 34 (2): 237–251. Bibcode:2016RSTEd..34..237C. doi:10.1080/02635143.2016.1144050. ISSN 0263-5143. S2CID 147638190.
- ^ Maeng, Jennifer L.; Mulvey, Bridget K.; Smetana, Lara K.; Bell, Randy L. (December 2013). "Preservice Teachers' TPACK: Using Technology to Support Inquiry Instruction". Journal of Science Education and Technology. 22 (6): 838–857. Bibcode:2013JSEdT..22..838M. doi:10.1007/s10956-013-9434-z. ISSN 1059-0145. S2CID 254745216.
- ^ Sheffield, Rachel; Dobozy, Eva; Gibson, David; Mullaney, Jim; Campbell, Chris (3 July 2015). "Teacher education students using TPACK in science: a case study". Educational Media International. 52 (3): 227–238. doi:10.1080/09523987.2015.1075104. ISSN 0952-3987. S2CID 61774139.
- ^ Koehler, M., & Mishra, P. (2009). What is technological pedagogical content knowledge (TPACK)? Contemporary issues in technology and teacher education, 9(1), 60–70.
- ^ Papanikolaou, Kyparisia; Makri, Katerina; Roussos, Petros (18 September 2017). "Learning design as a vehicle for developing TPACK in blended teacher training on technology enhanced learning". International Journal of Educational Technology in Higher Education. 14 (1). doi:10.1186/s41239-017-0072-z. ISSN 2365-9440. S2CID 6782577.
- ^ Koehler, Matthew J.; Mishra, Punya; Bouck, Emily C.; DeSchryver, Michael; Kereluik, Kristen; Shin, Tae Seob; Wolf, Leigh Graves (2011). "Deep-play: developing TPACK for 21st century teachers". International Journal of Learning Technology. 6 (2): 146. doi:10.1504/ijlt.2011.042646. ISSN 1477-8386.
- ^ a b c d Angeli, Charoula; Valanides, Nicos (January 2009). "Epistemological and methodological issues for the conceptualization, development, and assessment of ICT–TPCK: Advances in technological pedagogical content knowledge (TPCK)". Computers & Education. 52 (1): 154–168. doi:10.1016/j.compedu.2008.07.006. ISSN 0360-1315. S2CID 18954239.
- ^ Koh, Joyce Hwee Ling; Chai, Ching Sing (1 November 2016). "Seven design frames that teachers use when considering technological pedagogical content knowledge (TPACK)". Computers & Education. 102: 244–257. doi:10.1016/j.compedu.2016.09.003. ISSN 0360-1315.
- ^ Tsai, Chin-Chung; Chai, Ching Sing (15 August 2012). "The "third"-order barrier for technology-integration instruction: Implications for teacher education". Australasian Journal of Educational Technology. 28 (6). doi:10.14742/ajet.810. ISSN 1449-5554. S2CID 54207780.
- ^ Boschman, Ferry; McKenney, Susan; Voogt, Joke (March 2015). "Exploring teachers' use of TPACK in design talk: The collaborative design of technology-rich early literacy activities". Computers & Education. 82: 250–262. doi:10.1016/j.compedu.2014.11.010. ISSN 0360-1315. S2CID 33054499.
- ^ Baran, Evrim; Correia, Ana-Paula; Thompson, Ann (November 2011). "Transforming online teaching practice: critical analysis of the literature on the roles and competencies of online teachers". Distance Education. 32 (3): 421–439. doi:10.1080/01587919.2011.610293. ISSN 0158-7919. S2CID 182769.
- ^ a b Voogt, J.; Fisser, P.; Pareja Roblin, N.; Tondeur, J.; van Braak, J. (16 March 2012). "Technological pedagogical content knowledge – a review of the literature". Journal of Computer Assisted Learning. 29 (2): 109–121. doi:10.1111/j.1365-2729.2012.00487.x. ISSN 0266-4909. S2CID 9140208.
- ^ Phillips, Michael (7 July 2016). "Processes of practice and identity shaping teachers' TPACK enactment in a community of practice". Education and Information Technologies. 22 (4): 1771–1796. doi:10.1007/s10639-016-9512-y. ISSN 1360-2357. S2CID 146738729.
- ^ Porras-Hernández, Laura Helena; Salinas-Amescua, Bertha (March 2013). "Strengthening Tpack: A Broader Notion of Context and the Use of Teacher's Narratives to Reveal Knowledge Construction". Journal of Educational Computing Research. 48 (2): 223–244. doi:10.2190/ec.48.2.f. ISSN 0735-6331. S2CID 61521327.
- ^ Herring, Mary; Thomas, Tommye; Redmond, Pamela (21 April 2014). "Special Editorial: Technology Leadership for Preparing Tomorrow's Teachers to Use Technology". Journal of Digital Learning in Teacher Education. 30 (3): 76–80. doi:10.1080/21532974.2014.891875. ISSN 2153-2974. S2CID 154467742.
- ^ a b Niess, Margaret L. (April 2011). "Investigating TPACK: Knowledge Growth in Teaching with Technology". Journal of Educational Computing Research. 44 (3): 299–317. doi:10.2190/EC.44.3.c. ISSN 0735-6331. S2CID 62439095.
- ^ Koehler, Matthew J.; Mishra, Punya; Kereluik, Kristen; Shin, Tae Seob; Graham, Charles R. (2014), Spector, J. Michael; Merrill, M. David; Elen, Jan; Bishop, M. J. (eds.), "The Technological Pedagogical Content Knowledge Framework", Handbook of Research on Educational Communications and Technology, New York, NY: Springer New York, pp. 101–111, doi:10.1007/978-1-4614-3185-5_9, ISBN 978-1-4614-3184-8, S2CID 3899090, retrieved 26 June 2021
- ^ Mouza, Chrystalla. "Developing and assessing TPACK among pre-service teachers." Handbook of technological pedagogical content knowledge (TPACK) for educators 169 (2016).
- ^ Su, M., & Foulger, T. (March 2019). We aren't there yet: A progression of literature on TPACK measures to assess technology integration. In Society for Information Technology & Teacher Education International Conference (pp. 2534–2542). Association for the Advancement of Computing in Education (AACE).
- ^ Hall, Jacob A.; Lei, Jing; Wang, Qiu (1 December 2020). "The first principles of instruction: an examination of their impact on preservice teachers' TPACK". Educational Technology Research and Development. 68 (6): 3115–3142. doi:10.1007/s11423-020-09866-2. ISSN 1556-6501. S2CID 228928224.
- ^ Schmidt DA, Baran E, Thompson AD, Mishra P, Koehler MJ, Shin TS. (2009) Technological pedagogical content knowledge (TPACK): The development and validation of an assessment instrument for preservice teachers. Journal of Research on Technology in Education, 42(2), 123–149.
- ^ Wang, Wei; Schmidt-Crawford, Denise; Jin, Yi (2 October 2018). "Preservice Teachers' TPACK Development: A Review of Literature". Journal of Digital Learning in Teacher Education. 34 (4): 234–258. doi:10.1080/21532974.2018.1498039. ISSN 2153-2974. S2CID 181909673.
- ^ Valtonen, Teemu; Kukkonen, Jari; Kontkanen, Sini; Mäkitalo-Siegl, Kati; Sointu, Erkko (2018). "Differences in pre-service teachers' knowledge and readiness to use ICT in education". Journal of Computer Assisted Learning. 34 (2): 174–182. doi:10.1111/jcal.12225. ISSN 1365-2729.
- ^ Clausen, J. M., Finsness, E. S., Borthwick, A. C., Graziano, K. J., Carpenter, J. P., & Herring, M. (2019). TPACK leadership diagnostic tool: Adoption and implementation by teacher education leaders. Journal of Digital Learning in Teacher Education, 35(1), 54–72.
- ^ Chai, C. S., Koh, J. H. L., & Tsai, C. C. (2016). 6A Review of the quantitative measures of Technological Pedagogical Content Knowledge (TPACK). In Handbook of technological pedagogical content knowledge (TPACK) for educators (pp. 97–116). Routledge.
- ^ a b Archambault, L. (2016). Exploring the use of qualitative methods to examine TPACK. Handbook of technological pedagogical content knowledge (TPACK) for educators, 2, 65–86.
- ^ Polly, D., & Orrill, C. H. (2016). Designing professional development to support teachers’ TPACK in elementary school mathematics. Handbook of technological pedagogical content knowledge (TPACK) for educators, 2, 259–269.
- ^ Foulger, Teresa S.; Buss, Ray R.; Su, Man (18 August 2021). "The IT2 Survey: contextual knowledge (XK) influences on teacher candidates' intention to integrate technology". Educational Technology Research and Development. 69 (5): 2729–2760. doi:10.1007/s11423-021-10033-4. ISSN 1042-1629. PMC 8373295. PMID 34426722.
- ^ Byker, E. J., Putman, S. M., Polly, D., & Handler, L. (2018). Examining elementary education teachers and preservice teachers’ self-efficacy related to technological pedagogical and content knowledge (TPACK). In Self-efficacy in instructional technology contexts (pp. 119–140). Springer, Cham.
- ^ Kiray, S. A. (2016). Development of a TPACK self-efficacy scale for preservice science teachers. International Journal of Research in Education and Science, 2(2), 527–541.
- ^ a b Koh, J. H. L., Chai, C. S., & Tsai, C. C. (2010). Examining the technological pedagogical content knowledge of Singapore preservice teachers with a large-scale survey. Journal of Computer Assisted Learning, 26, 563–573.
- ^ a b Cox, S. M. (2008). A conceptual analysis of technological pedagogical content knowledge.
- ^ Graham, C. R. (2011). Theoretical considerations for understanding technological pedagogical content knowledge (TPACK). Computers & Education, 57(3), 1953–1960.
- ^ a b Archambault, L. M., & Barnett, J. H. (2010). Revisiting technological pedagogical content knowledge: Exploring the TPACK framework. Computers & Education, 55(4), 1656–1662.
- ^ a b Archambault L, Crippen K. (2009) Examining TPACK among K-12 online distance educators in the United States. Contemporary Issues in Technology and Teacher Education, 9(1), 71–88
- ^ Cox, S., & Graham, C. R. (2009). Using an elaborated model of the TPACK framework to analyze and depict teacher knowledge. TechTrends, 53(5), 60–69.
- ^ Jimoyiannis, A. (2010). Designing and implementing an integrated technological pedagogical science knowledge framework for science teacher’s professional development. Computers & Education,55(3), 1259–1269. doi:10.1016/j.compedu.2010.05.022
- ^ Bull, G., Hodge, C., Mouza, C., Grant, M., Archambault, L., Borup, J., ... & Schmidt-Crawford, D. A. (2019). Conceptual Dilution. Contemporary Issues in Technology and Teacher Education, 19(2), 117–128.
- ^ Chai, C. S., Koh, J. H. L., & Tsai, C. C. (2010). Facilitating preservice teachers' development of technological, pedagogical, and content knowledge (TPACK). Journal of Educational Technology & Society, 13(4), 63–73.
- ^ Agyei, D. D., & Keengwe, J. (2014). Using technology pedagogical content knowledge development to enhance learning outcomes. Education and Information Technologies, 19(1), 155–171.
- ^ a b Brantley-Dias, L., & Ertmer, P. A. (2014). Goldilocks and TPACK. Journal of Research on Technology in Education 46(2), 103–128.
- ^ Kopcha, T. J., Ottenbreit-Leftwich, A., Jung, J., & Baser, D. (2014). Examining the TPACK framework through the convergent and discriminant validity of two measures. Computers & Education, 78, 87–96.
- ^ Harris, J., Grandgenett, N., & Hofer, M. (March 2010). Testing a TPACK-based technology integration assessment rubric. In Society for Information Technology & Teacher Education International Conference (pp. 3833–3840). Association for the Advancement of Computing in Education (AACE).