Premier McGuinty appointed the Honourable Bob Rae as Advisor to the Premier and the Minister of Training, Colleges and Universities. With the support of a seven-member Advisory Panel, Mr. Rae was asked to advise on strategies to improve higher education by providing recommendations on: • the design of a publicly funded postsecondary system offering services in both
official languages that promotes: – recognized excellence in curricular activities to build the skilled workforce
and promising scholars of the future; – an integrated and articulated system that meets the diverse learning needs
of Ontarians through the most cost-effective design; • funding model(s) that: – link provincial funding to government objectives for postsecondary education, including the objectives of better workers for better jobs in an innovative economy and an accessible, affordable and quality system;
– establish an appropriate sharing of the costs of postsecondary education among the government, students and the private sector;
– identify an effective student assistance program that promotes increased access to postsecondary education.
Analyses of the 49th annual administration of the CIRP Freshman Survey find substantive variation across levels of institutional selectivity and control in students’ intentions to transfer. Students also increasingly place greater importance on early admissions programs in the college search process, perhaps signaling a new strategy for those attempting to enroll in the most selective institutions. As the Obama administration finalizes its plans to measure performance outcomes for colleges and universities, more freshmen appear to be aspiring to graduate degrees.
In the past few decades, those of us working in institutions of higher education have seen an instructional paradigm shift. Given the growth in research on learning, our views of how people learn best have developed over the last few decades; from behaviorist perspectives of learning, we have also come to understand learning from cognitive and social perspectives. (For a more in-depth discussion of these issues, see Barkley, Major, and Cross, 2014, as well as articles in this special issue). This development has caused higher education instructors to modify their instructional practices as a result. Many instructors have moved away from a sole diet of traditional lecture, with the occasional short-answer question to the class in which students listen, repeat, and occasionally apply, toward a modified menu of pedagogical platforms in which, much of the time, students are active participants in the learning process. Higher education faculty, then, have gone about this task of engaging students actively in learning in a number of important ways by adopting a range of instructional approaches.
Since the 1960s, there has been growing and sustained interest in small-group learning approaches at the school level and in higher education. A voluminous body of literature in this area addresses theory, research, classroom practice, and faculty development. The approaches most highly represented in the literature are cooperative learning, collaborative learning, and problem-based learning (PBL). In this article, the authors compare and contrast these approaches through answering questions such as the following: What are the unique features of each approach? What do the three approaches have in common? How are they similar, and how are they different?
The authors address three questions: (1) What are the foundational practices of team-based learning (TBL)? (2) What are the fundamental principles underlying TBL’s foundational practices? and (3) In what ways are TBL’s foundational practices similar to and/or different from the practices employed by problem-based learning (PBL) and cooperative learning (CL)? Most of the TBL vs. CL and PBL comparisons are organized in relation to the size of and strategies for forming groups/teams, the strategies for ensuring that students are familiar with the course content, the nature of the group/team assignments, the role of peer assessment, and the role of the instructor.
Cooperative learning is an example of how theory validated by research may be applied to instructional practice. The major theoretical base for cooperative learning is social interdependence theory. It provides clear definitions of cooperative, competitive, and individualistic learning. Hundreds of research studies have validated its basic propositions and demonstrated that cooperative learning (compared with competitive and individualistic learning) increases students’ efforts to achieve, encourages positive relationships with classmates and faculty, and improves psychological health and well being. Operational procedures have been derived from the validated theory to implement cooperative learning in university classes, including those needed to implement formal cooperative learning, informal cooperative learning, and cooperative base groups.
Faculty developers and others who specialize in research on teaching and learning recognize that much of the research is convergent. Positive teaching and learning practices do not operate in stand-alone vacuums. A savvy university teacher draws eclectically from a number of sources and resources to design coherent teaching and learning plans. This article will examine symbiotically how cooperative learning and deep learning together can promote greater success both in and out of the classroom.
In this article we describe our experiences with using small-group instruction in college settings for a combined total of 60 years. Since others, including Johnson and Johnson (1989), Kagan (1994, 2009), Sharan (1994), and Aronson (2011), have developed specific forms of group work, such as structured controversy, jigsaw, and group investigation, we will focus on how we have used group work as a core technique and have developed additional procedures that seem to potentiate the power of group work, regardless of the specific procedure and discipline.
Problem-based learning (PBL) is an instructional method where student learning occurs in the context of solving an authentic problem. PBL was initially developed out of an instructional need to help medical school students learn their basic sciences knowledge in a way that would be more lasting while helping to develop clinical skills simultaneously. Although PBL ad- dresses this specific need, it is also based in sound educational theories and paradigms. The author addresses those theoretical foundations of PBL, which, in turn, help readers to understand why PBL can be effective as well as enable them to diagnose and improve PBL applications when things are not going quite as planned.
If instructors desire students to gain a deeper understanding of the content and begin thinking like experts, then they need class time for active, collaborative learning. In the flipped classroom, primary knowledge acquisition occurs before class, which
creates space for students to practice applying the information of the discipline with their peers. Team-based learning is an effective in-class, instructional-strategy that (1) assesses and enhances student content acquisition from pre-class study, and (2) uses the majority of class time for activities that enable them to discuss, take-risks, and make mistakes while developing their
expertise.
But it was the “non-official” leadership work—reading and writing professionally, webinars for groups like the Center
for Teaching Quality, interdisciplinary collaboration with colleagues, building community partnerships for my students, and summer residential graduate work at Middlebury College’s Bread Loaf School of English—that really kept me energized as an educator. The extra work, connections, and opportunities I got from these endeavors kept me motivated to remain in the classroom.
Looking out at our students in classrooms today, with their texting, Facebook updates, Instagram messages, e-mail checking, Google searches, and tweeting, it’s hard to imagine what was so distracting for college students more than 100 years ago when James made this statement. Yet, even then, he recognized the propensity of the mind to constantly seek novel material, to leap from thought to image to belief to fear to desire to judgment and back again — all following one’s own quirky train of thought resembling the chaotic movements of a swarm of bees around a hive. Time passes through a warped dimension when the student finally returns to some semblance of attention, unaware of all the cognitive detours taken between points A and B. And that’s just the internal process, prompted by nothing in particular. How much more distraction is invited by today’s mobile technology?
In early 2014, two incidents engulfed the University of Ottawa in the debate over sexual violence
that has affected many postsecondary institutions in recent years. In February, members of the University of Ottawa men’s varsity hockey team were involved in an alleged sexual assault, resulting in the suspension of the men’s hockey program for the 2014-15 season. Following this incident, a Facebook conversation involving five male students that included sexually derogatory and violent comments about the female President of the Student Federation of the University of Ottawa (SFUO) was made public.
The purpose of this document is to provide a high-level introduction to economic impact analysis
(EIA) in a postsecondary education (PSE) context, written for a non-subject-expert audience of postsecondary institution stakeholders. It is intended to serve as broad context for individuals in the postsecondary education community who may wish to measure the economic impacts of their institutions or understand the methods, findings and limitations in studies done elsewhere. The information contained herein is of a general nature and is not intended to be an exhaustive, detailed quantitative textbook in actually conducting such studies, nor is it intended to address the circumstances of any specific individual or entity.
The Canadian Trans Youth Health Survey was a national on-line survey conducted by researchers from several Canadian universities and community organizations. The survey had 923 trans youth participants from all 10 provinces and one of the territories. The survey included somewhat differ- ent questions for younger (14-18 years) and older (19-25
years) trans youth about a wide range of life experiences and behaviours that influence young people’s health. This national report is a first snapshot of survey results.
It is generally understood that skills make critical contributions to Canada’s prosperity. However, there is uncertainty about precisely which skills are needed to thrive in tomorrow’s economy, how skills directly contribute to innovation and productivity, whether some skills are more connected to these goals than others, and whether there is an optimal combination of skills that fosters growth. Many skills are required to advance human knowledge and social and economic development. However, in a complex and uncertain global economy, science, technology, engineering, and mathematics (STEM) skills are in the spotlight, as countries aim to maximize their economic competitiveness and productivity. As a result, governments, policy-makers, educators, and business leaders are particularly concerned about how well equipped Canada is with the STEM skills needed to fulfil labour market demands and promote innovation.
University Works uses empirical data to report on the outcomes of university graduates in terms of employment levels
and earnings, as well as average debt upon graduation.
University graduates experienced the highest employment growth of any educational attainment group over the last decade.
In fall 2009, the Chattanooga State Community College math department faced a problem not uncommon to colleges around the nation: Online course offerings had high failure rates and were not a quality experience for students. After examining the data, the department made a bold decision to put a moratorium on online math courses for two years. This move provided time to improve the quality and success of online courses. Since re-offering online mathematics courses again in fall 2011, the college has seen a significant increase in student learning and success. This article outlines the reasons for the decision, the steps taken to improve the program, and the results since reintroducing the courses.
The choice of whether and where to attend college is among the most important investment decisions individuals and families make, yet people know little about how institutions of higher learning compare along important dimensions of quality. This is especially true for the nearly 5,000 colleges granting credentials of two years or fewer, which together graduate nearly 2 million students annually, or about 39 percent of all postsecondary graduates. Moreover, popular rankings of college quality, such as those produced by U.S. News, Forbes, and Money, focus only on a small fraction of the nation’s four-year colleges and tend to reward highly selective institutions over those that contribute the most to student success.
Drawing on a variety of government and private data sources, this report presents a provisional analysis of college value-added with respect to the economic success of the college’s graduates, measured by the incomes graduates earn, the occupations in which they work, and their loan repayment rates. This is not an attempt to measure how much alumni earnings increase compared to forgoing a postsecondary education. Rather, as defined here, a college’s value-added measures the difference
between actual alumni outcomes (like salaries) and predicted outcomes for institutions with similar characteristics and students. Value-added, in this sense, captures the benefits that accrue from both measurable aspects of college quality, such as graduation rates and the market value of the skills a college teaches, as well as unmeasurable “x factors,” like exceptional leadership or teaching, that contribute to student success.
The condition of the U.S. science, technology, engineering, and mathematics (STEM) workforce figures prominently in discussions of national competitiveness, education policy, innovation, and even immigration. But the relevant analyses and conversations are hindered by differing understandings of the composition and character of the STEM workforce and the varied, dynamic career pathways enabled by STEM knowledge and skills.