Criminal Justice College Instructors\u27 Experiences, Perceptions, and Teaching Strategies Related to Undergraduate Plagiarism

The criminal justice program in a community college located in the southwestern United States had experienced an increase in student plagiarism. However, the current teaching practices of criminal justice instructors to prevent and manage the increased student plagiarism have not been effective. The purpose of this study was to explore criminal justice college instructors\u27 experiences, perceptions, and teaching strategies related to undergraduate student plagiarism using Goleman\u27s emotional intelligence theory and Daloz\u27s mentoring theory. Employing a qualitative instrumental case study design, data were collected through semistructured interviews with 10 criminal justice college instructors. Member checking and reflective journaling ensured accuracy and credibility with initial findings from the interview data. The interview data were coded and analyzed using matrix and thematic analysis. Findings revealed 6 categories: professional development, instructor-student relationships, Turnitin reports, policy enforcement, instructor discretion, and mentoring students. To address the findings, a department plagiarism policy was proposed through a position paper to key stakeholders at the community college. The implementation of the department plagiarism policy has the possibility to create positive social change by promoting ethical writing standards and providing support for students\u27 future academic success

Making A Difference: Year Two Report of the Pennsylvania High School Coaching Initiative

This report examines the implementation of the second year of three for the Pennsylvania High School Coaching Initiative (PAHSCI). Funded by the Annenberg Foundation, this initiative focuses on literacy and math coaches providing support to teachers from across the major subject areas to create literacy-rich classrooms in which students actively engage in learning tasks that deepen their content knowledge and strengthen their abilities to think critically and communicate well. This report presents findings from the first two years of research. It includes survey research as well as in-depth qualitative research in participating schools and districts and provides recommendations for PAHSCI stakeholders as they refine the program and for other education reformers as they consider the benefits of instructional coaching as a strategy for improving high schools and student achievement

Evaluating instructor compliance with the utilization of technology in higher education art and design courses

College students of today differ significantly from the students of decades past. To keep up with the students’ shift in age, development level, and various learning styles, instructors must embrace the technological revolution through supporting active learning strategies and technology integration methods. As classrooms grow more individualized for students in all disciplines, art and design students must be able to benefit from this style of instruction. Technology integration creates a learning environment where instructors connect and engage students in the classroom while also preparing them to join the digital workforce. This quantitative study surveyed instructors’ attitudes toward technology and the degree of technology use in higher education art and design classes. The literature in the study examines the history of technology in art and design, the importance of technology integration, types of instructional tools, and the attitudes and obstacles of art and design instructors in higher education institutions. Exploring instructors’ attitudes and theories are fundamental to effective professional growth and development (Avalos, 2011). To establish a foundation for further research, the researcher identified current art and design instructors’ attitudes. The results of the study found that both instructors’ attitudes towards computer use and the instructor’s instructional method positively impact the level of computer use

Preservice Teachers’ Perceived Preparedness to Integrate Technology Into Teaching of Mathematics: A Mixed Method Study

This study explored preservice teachers’ (PTs’) perceptions of their preparedness to effectively integrate technology into mathematics teaching and the pedagogical strategies that contributed to developing their competencies in this regard. Their perceived preparedness was examined in terms of their knowledge within the TPACK domains and self-efficacy beliefs. Using a concurrent mixed method design, data were collected from 59 PTs in their last semester of study at a Canadian university. Quantitative data were collected through an online survey via three widely used instruments, namely: the TPACK survey, the Computer Technology Integration Survey (CTIS), and the Synthesis of Qualitative Evidence (SQD) Scale. Qualitative data obtained from three open-ended survey questions and follow-up interviews with six participants provided broader insights about PTs’ experiences and activities regarding technology integration into mathematics teaching. The results of descriptive statistics and thematic analysis indicated that PTs perceived their knowledge and self-efficacy beliefs related to integrating technology into mathematics teaching at a moderate to a high level. Correlation analysis also indicated positive relationships between the seven subscales of the TPACK domains and the confidence scale. Participants shared that while their respective programs’ ICT for Teaching and Learning course played an important role in developing their knowledge in the TK and TPK domains, activities such as coding processes, math games, dynamic mathematics software, and graphic calculators were effective tools that encouraged them to use technology in their teaching of mathematics (TPCK). Experiential learning, including practicum experiences, role modeling strategy, and collaboration with peers were identified by participants as effective pedagogical strategies that developed their preparedness to integrate technology into their teaching of mathematics. Some recommendations of this study for teacher education programs include providing math-specific technology courses; incorporating appropriate instructional design that connects the content course to curriculum to promote PTs’ active engagement in meaningful technology-rich learning activities; and using all six pedagogical strategies presented in the SQD model to prepare future teachers to effectively use technology in mathematics teaching

The Evolution of Student Engagement: Writing Improves Teaching in Introductory Biology

In response to calls for pedagogical reforms in undergraduate biology courses to decrease student attrition rates and increase active learning, this article describes one faculty member’s conversion from traditional teaching methods to more engaging forms of practice. Partially told as a narrative, this article illustrates a.) the way many faculty initially learn to teach by modeling the pedagogy from their own undergraduate programs; b.) the kind of support biology faculty may need to break out of traditional molds; c.) how writing can promote active learning; and d.) the impact of reformed pedagogy on student levels of engagement. The latter will be demonstrated through assessment results gathered from student surveys, reflective writing, and focus group interview. Ultimately, the study challenges misunderstandings some faculty might have regarding the value of writing in science classes and offers inspiration, urging critical reflection and persistence

Teacher Education and Technology Integration: How Do Preservice Teachers Perceive Their Readiness to Infuse Technology into the Learning Environment?

In the past twenty years, substantial investments have been made in educational technology at the K-12 level. While increased integration of technology in K-12 teaching is more likely to occur when prospective teachers are exposed to a variety of computer uses in the majority of their undergraduate courses prior to their teaching in schools, due to the limited exposure in the use of technology by university teachers as well as the fast paced changes, preservice teachers often are not prepared for integrating and using technology in the classroom. The purpose of this study was to evaluate the perceptions of preservice students in their ability to integrate technology into a learning environment based on university coursework and field experience. Preservice teachers, within an NCATE accredited teacher education program, were surveyed using the 2008 ISTE/NETS*T standards as a framework. Results of the data analysis, across the four academic years based on curriculum, modeling of university professors, and integration of technology within the methods coursework of the Leading Teacher Program, suggested that there was no significant difference among grade levels in their perceived ability to integrate technology. Results of the data analysis of seniors revealed multiple areas of significant differences before and after their field experience: ability to use online content response journals, integrating technology into a learning environment, and total score of the survey. Additional data analysis also revealed that the perceptions of Early Childhood students\u27 ability to integrate technology into a learning environment was significantly lower than that of Elementary and Secondary students within the same program. In addition, students who had well integrated modeling of technology in high school, revealed significantly higher perceptions of their ability to integrate technology into the learning environment. The conclusions drawn from the results of this study provide an insight into technology savvy characteristics of preservice teachers within a teacher education program, which has technology as one of its core themes; technology modeling and program design within a teacher education program can have an impact on preservice teachers to have stronger perceptions about their ability to integrate technology

ICT efficacy and response to different needs in university classrooms: effects on attitudes and active behaviour towards technology

Digital competence is considered to be a crucial learning outcome in education in the 21st century. In this context, research highlights the fact that the perceptions that instructors manifest about different aspects of Information and Communication Technologies (ICTs) condition these professionals’ behaviour towards these learning resources. In the same line, this study aims to analyse the effects that exist between a series of dimensions related to the perception of university teaching staff on the capacity of ICTs to respond to different needs of students, on perceived efficacy and attitudes towards these tools and, lastly, on active behaviour towards their use. To do so, 345 university instructors from the Spanish educational system filled in an online questionnaire. The application of a Structural Equation Model underscores the fact that the ability of ICTs to respond to the different needs of students in the university classroom and their perceived efficacy in the teaching–learning process both exert a positive effect on attitudes in favour of their incorporation into the classroom. In turn, these attitudes also have a significant effect on active behaviour with ICT resources. In addition, various mediating effects are seen to influence an active behaviour. All this gives rise to a discussion on the implications of these results to encourage the training of university teaching staff in the knowledge and management of ICTs. Increasing confidence in ICTs as effective tools to respond to different needs could significantly favour positive attitudes and behaviour so that these resources are actively integrated into the classroom

Virginia Earth Science Collaborative: Developing Highly Qualified Earth Science Teachers

A collaborative of seven institutes of higher education and two non-profit organizations developed and implemented five earth science courses totaling eighteen credits that enabled secondary teachers to acquire an add-on earth science endorsement: Geology 1: Physical Geology (4), Geology II: Geology of Virginia (4), Oceanography (4), Astronomy (Space Science for Teachers) (3), and Meteorology (3). These courses were collaboratively developed and included rigorous academic content, research-based instructional strategies, and intense field experiences. The thirty-three sections offered statewide served 499 participants. Three courses were offered to strengthen the skills of earth science teachers: Teaching Eath Science Topics to Special Education Students (3), Integrating New Technologies in the Earth Sciences (3). and GeoVirginia: Creating Virtual Field Trips (non-college credit). In these six sections, seventy-four people participated. Outcomes included an increased pool of endorsed earth science teachers and teachers with coursework in the earth sciences, a website with virtual field trips, and a statewide network. Partners included the College of William & Mary and its Virginia Institute of Marine Sciences, George Mason University, James Madison University, Longwood University, the MathScience Innovation Center (formerly the Mathematics & Science Center), Radford University. Science Museum of Virginia, University of Virginia Southwest Center, Virginia Commonwealth University, and eighty-three school divisions