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Elementary Pre-service Teachers’ Perceptions and Experiences of Mathematics Intervention and Response to Intervention Practices
Response to intervention has become a widely implemented early intervention and pre-referral program in many schools due to the reauthorization of the 2004 Individuals with Disabilities Education Act. Limited studies exist that validate how teacher preparation programs are preparing the next generation of teachers to assess students, apply early academic interventions, monitor progress, and make educational decisions for students with learning difficulties as part of an RTI program. The purpose of this study was to examine elementary pre-service teachers’ perceptions and experiences in a mathematics intervention project (MIP), as part of a university mathematics methods course as related to RTI practices. Data were collected from multiple sources, including: Seidman’s three-step interview series with pre-service participants and course instructors, document analysis of the Mathematics Interactions Project (MIP) students’ responses, mathematics methods course syllabi, and observations of the mathematics methods course instruction. Haskell’s transfer theory was used as the framework from which to analyze the data. It was assumed that if a majority of the 11 principles of meaningful transfer were addressed, higher levels of transfer from university instruction to intervention instruction would be observed during the MIP. Findings indicate differences in RTI understanding according to elementary education degree plan. Candidates in the English as a Second Language (ESL) program did not demonstrate a strong foundational understanding of RTI, evidenced by a lower level of transfer about RTI. Alternately, pre-service teachers in the special education degree plan had a stronger foundational knowledge of RTI, discussed how RTI learning was supported, and had more experiences to implement RTI (principles 1, 7, and 9). Pre-service teachers in the Special Education (SPED) certification degree plan demonstrated a higher level of transfer since more of the principles were met; this was foundational in Haskell’s transfer theory. Implications are that elementary education programs, and particularly projects such …
Exploring the Dual-natured Impact of Digital Technology on Student-classroom Engagement in a Texas Public High School
The past decade has become rife with an eagerness to integrate new digital technology into teaching. While there have been decades of research done on the importance of curriculum and pedagogy on student engagement, findings of actual technology integration are scarce. Moreover, what does it take to engage students in classroom activities and lessons when technology is introduced? The purpose of this study was to explore how digital technology, when integrated into classroom teaching and activities, impacted the students-classroom engagement based on the interim-cognitive, meta-cognitive, motivational, and behavioral markers. This was explored in a Texas public high school across the four core classes (English, Math, Science, and Social Studies. Data was collected in the form of observational field notes, transcripts of recorded lessons, and Likert-scaled surveys. Thematic analysis was used in analyzing qualitative data, Pearson’s correlation of those components found by factor analysis verified three of the five themes identified from the thematic analysis with statistical significance. The findings suggest that mere use of technology does not have a profound impact on student engagement. Instead, technology tends to amplify the existing classroom culture and social norms agreed upon between the teacher and their students. Texas teachers and students are also redefining the meaning of curriculum to include technology as a result of the attempted integration. This research finds that students’ hands-on activities under teachers’ guidance with the use of technology excel when teachers are molding digital work.
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