Data on how well the information and communication technology (ICT) needs of 1354 Canadian college and university students with disabilities are met on and off campus were collected using the newly developed POSITIVES Scale (Postsecondary Information Technology Initiative Scale). The measure contains 26 items which use a 6- point Likert scale (1 = strongly disagree, 6 = strongly agree) to indicate level of agreement with each of the positively worded items. It has three factor analysis-derived subscales (ICTs at School Meet Student’s Needs, ICTs at Home Meet Student’s Needs, E-learning ICTs Meet Student’s Needs) and a total score. Reliability and validity are excellent for both English and French versions. Versions that could be completed online, on paper (printable PDF), and within a Microsoft Word document were found to be equivalent.
This research was conducted to gain in-depth knowledge about mature1 students’ persistence2 in a university-college environment, with the ultimate aim of informing institutional student retention policies and practices. The specific purpose of this exploratory study was to broaden and deepen our understanding of the multifaceted nature of mature students’ lives and those factors exerting important influences on mature students’ educational commitment and persistence. Of particular interest were those quality of life dimensions and relevant contextual factors that are associated with mature students’ decisions to persist or withdraw in their first year of post-secondary education. This research is important, as there are few studies that take into consideration adult learners’ unique life circumstances and educational challenges, and fewer still that explore adult quality of life influences on student retention.
This report examines the postsecondary attrition and academic performance of males (compared to females) and students with disabilities, two groups on which limited research is currently available. The research addresses four main issues: 1) differences in attrition patterns among the targeted sub-populations, 2) a comparison of the background, demographic, psychosocial and study skill variables that lead to attrition and poor first semester performance, 3) the predictive value of these variables for the targeted sub-populations in identifying students who are at risk at the time they enter college and 4) reasons given by students for leaving postsecondary study prior to completing their diplomas. The analysis included those students who commenced studies for the first time at a large non-residential English college in Quebec between 1990 and 2007. The college offers three-year career programs (26% of enrolments) and two-year programs leading to university entrance (68% of enrolments). Six percent of students are also enrolled in qualifying studies. In addition to the high school average, we compared three groups of variables 1) six background variables obtained from the students’ records (Records variables), 2) nine variables obtained from the college’s annual incoming student survey (ISS variables) and 3) ten psychosocial and study skill variables obtained from the Student Readiness Inventory (SRI variables) (ACT Testing Services, 2008). The following provides a summary of the findings
related to each of our research questions.
Background
According to a report by the Ontario Ministry of Training, Colleges and Universities (2005) , 30 to 40% of all students enrolled in four-year degree programs drop out, and 78-80% of those who do drop out will do so in their first year. Similar levels have been reported in other provinces, such as Québec (25-35%, Montmarquette, Mahseredjian, & Houle, 2001). In a paper for the Commission of Inquiry on Canadian University Education, Gilbert (1991) estimated that after five years the non-completion rate for university undergraduates is approximately 42% across Canada. Of particular concern, research on student retention has demonstrated that some disciplines have higher drop-out rates than others; science, mathematics, and engineering students are more likely to drop out than students in other disciplines (Daempfle, 2004). Moreover, each year approximately 35% of undergraduates fail introductory mathematics and science classes (Useem, 1992). Because of these growing concerns, research is needed that focuses on increasing retention and achievement in undergraduate science. This research addresses these
concerns by implementing a different approach to providing feedback to students that may result in higher achievement and increased retention at the undergraduate level of education.
Older workers’ (aged 50-64) job retention in the paid labour force has come to the fore because of the shortfall in availability of skilled labour now and in Canada’s future and the projection of a ‘greying population.’ Employing mixed methods, the research focused on the unique approaches and challenges experienced by older professionals in informal learning, the everyday experiences in which people learn. In addition, the research focused on the practices of documenting (methods for keeping track of learning), assessing (making judgements about learning), and supporting (methods that facilitate learning) that are helpful for older workers’ informal learning practices. The project focused on Certified Management Accountants (CMAs), knowledge workers whose continuous learning is urgent in Canada’s ‘hot economy’ and whose professional associations have made learning a priority.
Given the pace of technological change and the strong forces to innovate from the global market place, the need to invest in human capital continues to increase as does the requirement for high return on investment (ROI) in training. One of the obstacles of measuring the ROI of training is that many of the benefits of training may not be immediately visible for measurement and it may be impossible to allocate the improvements exhibited by the firm to a particular training event. The lack of longitudinal studies to measure the ROI of training, particularly with respect to supporting the use of technology and intensity of innovation, is an area that will be addressed in this study.
The pace of innovation and technological change in the global market place make it imperative that companies constantly look at improving the skills of their workforce (Bresnahan, Brynjolsson and Hitt, 1999). The investment in human capital through the use of relevant and targeted training is critical in order to keep a business competitive (Rabemananjara and Parsley, 2006). One of the key components to an organization’s competitive advantage is the development of knowledge workers and increasing the value of their human capital.
In Canada and elsewhere, a great deal of research has described patterns of youth unemployment and difficulties in youth school to work transitions. A significant proportion of this has focused on the types of barriers facing particular groups of youths who, in turn, become marginalized in relation to labour markets access, career development and society. The Following the Success (FTS) project builds on this research and explores additional issues that are less well represented in the literature. These issues spring from three general gaps. First, despite a solid understanding of the effects of marginalization on youth labour market outcomes, the perspectives of both youth and employers on forms of marginalization are less well understood. Second, the bulk of existing research essentially tracks failed labour market transitions. This is important. However, equally valuable is research devoted to understanding instances of ‘success’ during which youth obtain stable and potentially career-establishing positions in the labour market. And third, the bulk of research in this area frames marginalization as a relatively static process. What is needed is a dynamic perspective that takes into account how both youth and employers learn to overcome these
marginalizing factors to varying degrees within youth employment. The FTS project was designed to respond to these three main gaps in the research literature in order to further supplement knowledge of the relationship between workplace learning practices, employment and marginalized youth success.
The Canadian Council on Learning (CCL) has been engaged through a competitive process by the Ontario Ministry of Education (hereafter “the Ministry”) to evaluate the extent to which the Student Success/Learning to 18 Strategy (hereafter “the SS/L18 Strategy”) as currently implemented is aligned with the Ministry’s three overarching goals and is producing the intended
outcomes related to its specific five goals. The evaluation process is composed of two main phases. This Stage 1 report provides a description and chronology of the SS/L18 Strategy-related changes; a catalogue and preliminary analysis of source documents relevant to the initiative; the results of an analysis of interviews with 39 respondents identified for the initial stage of the evaluation; the results of four focus groups conducted with Student Success Leaders (SSLs); preliminary
observations about the conduct of the SS/L18 Strategy, its strengths and vulnerabilities, as well as some preliminary recommendations for the future of the Strategy.
Aboriginal people in Canada are sharply under-represented in science and engineering occupations; more can be done to increase the relevance of learning and engagement of Aboriginal students in science and technology. Choosing careers in science and technology will benefit Aboriginal students directly through employment, but more importantly they can make a
tremendous contribution to Canada from the unique perspectives to science and technology based on the values implicit in Aboriginal knowledge and ways of knowing. Past experience has shown that filling positions in science and technology with Aboriginal people is highly desirable, as non-Aboriginal people hired by Aboriginal organizations typically remain in their positions for less than two years. In contrast, Aboriginal professionals remain in their positions much longer and bring stability and pride to their communities. Aboriginal people in Canada are sharply under-represented in science and
engineering occupations; more can be done to increase the relevance of learning and engagement of Aboriginal students in science and technology. Choosing careers in science and technology will benefit Aboriginal students directly through employment, but more importantly they can make a tremendous contribution to Canada from the unique perspectives to science and technology based on the values implicit in Aboriginal knowledge and ways of knowing. Past experience has shown that
filling positions in science and technology with Aboriginal people is highly desirable, as non-Aboriginal people hired by Aboriginal organizations typically remain in their positions for less than two years. In contrast, Aboriginal professionals remain in their positions much longer and bring stability and pride to their communities.
Recent empirical work has demonstrated the importance both of educational peer effects and of various factors that affect college choices. We connect these literatures by highlighting a previously unstudied determinant of college choice, namely the college choice made by one’s older sibling. Data on 1.6 million sibling pairs of SAT-takers reveals that younger and older sib- lings’ choices are very closely related. One-fifth of younger siblings enroll in the same college as their older siblings. Compared to their high school classmates of similar academic skill and with observably similar families, younger siblings are about 15–20 percentage points more likely to enroll in 4-year colleges or highly competitive colleges if their older siblings do so first. These
findings vary little by family characteristics. Younger siblings are more likely to follow the college choices of their older siblings the more they resemble each other in terms of academic skill, age and gender. We discuss channels through which older siblings’ college choices might causally influence their younger siblings, noting that the facts documented here should prompt
further research on the sharing of information and shaping of educational preferences within families.
This draft framework has been approved by the Committee of Presidents of the 24 publicly-funded colleges. In approving this template, the presidents recognize that individual colleges may need to make changes to reflect local circumstances during the development of their stand-alone sexual violence and sexual assault policy and protocol. In doing so, the colleges have committed to retaining as much consistency with the template as possible to reflect a similar style, tone, and format that will help
students and others easily access information they need no matter which college they approach.
ALTHOUGH WE KNOW THAT SEXUAL VIOLENCE OFTEN GOES UNREPORTED, RESEARCH INDICATES THAT THERE ARE 460,000 SEXUAL ASSAULTS IN CANADA EACH YEAR. FOR EVERY 1000 SEXUAL ASSAULTS, ONLY 33 ARE EVER REPORTED TO THE POLICE; 12 RESULT IN CHARGES LAID; ONLY 6 ARE PROSECUTED AND ONLY 3 LEAD TO A CONVICTION.
Very few reach the courts and far too many survivors don’t access support and counselling. This means that survivors aren’t getting the help that they need, and perpetrators of sexual violence are not being held accountable.
Why? Because too many of us have attitudes towards women, men, relationships and rape that towards women, men, relationships and rape that are sexist, misogynist and often just plain wrong.
This report examines the use and benefits of tutorials in a large enrolment first-year economics course. The primary objective of this study was to measure the relative merits of two different kinds of tutorials, a traditional tutorial, in which students listen to a teaching assistant work through a problem related to course material, and a collaborative tutorial, in which students work through a problem together in small teams with guidance from the teaching assistant. Assuming that at least part of the purpose of having tutorials in large classes is to increase student engagement, the study also examined student attendance in both types of tutorials as a proxy for engagement.
A society’s aging, or its age distribution, is normally viewed from the perspective of the number of years since birth. In this E-Brief, however, we propose an alternative: measuring age according to the number of years remaining in life.
Taking increases in longevity into account, a 35-year-old Canadian had a remaining life expectancy of 38.6 years in 1950, but 46.8 years in 2010, a difference of 8.2 years. Viewed so, the Canadian population is not getting older in the traditional sense, but “younger,” because many workers are approaching retirement age more able, and willing, to work longer than were previous
generations of Canadians.
Because many older Canadians are already deciding to retire later than the arbitrary age of 65, public policy should aim to provide Canadians with the instruments to better manage retirement decisions.
Population aging: those two words, it seems, inspire fears of different kinds. The number of retirees per active worker is steadily climbing. The problems this could engender are rather obvious: absent a significant increase in productivity, GDP growth is bound to slow down, which would exacerbate the growing stress on public finances, in particular through health expenditures.
Interest in adult college completion, both for adults with some college credit and those who have never before attended college, has dramatically increased across the higher education community. This report draws from the considerable body of recent research focused on various populations of adult learners, including data gathered during Higher Ed Insight's recent evaluation of Lumina Foundation's adult college completion efforts. The goal of the report is to synthesize what has been learned about the needs of adult college students, particularly those returning to college after stopping out, as well as to identify areas where further inquiry is needed in order to demonstrate effective ways to support degree completion for adults.
In February 2014, Getting Smart and Fuel Education™ (FuelEd™) came together to release Fueling a Personalized
Learning Revolution in Secondary Education. The paper highlighted how personalized, blended learning can improve access to high-quality learning opportunities by focusing on various experiences of high school students in districts across the country.
Our first paper contended that the ultimate goal of blended learning is to create opportunities for student learning to be personalized along unique pathways. We described the way in which personalization revolutionizes how students learn and teachers teach in schools and districts across the country. Benefits include increased engagement as a result of powerful learning experiences, access to tools that support quality work products, and choices in learning opportunities beyond the traditional school day. This personalized approach provides students ownership of the learning experience, flexibility in path, and opportunities to progress at an individual pace.
In this follow-up paper, we shift our focus from individual classrooms and courses to explore the question of scale. Specifically, we were interested in learning how schools and districts successfully scale online and blended programs so that a growing number of students have access to the potential of personalized learning.
In 2008-09, Lakehead University undertook a study to examine the effectiveness of its Gateway program, an academic intervention program offered to a select population of incoming students. The Gateway program at Lakehead is designed for students who exhibit academic potential but who do not meet the traditional entrance requirements of the university at the time of application. The program not only provides access to a university education but also provides support for success. The
intentional and holistic programming provided to students admitted through the Gateway program includes special academic support programming and mandatory academic advising.
A diploma mill, also known as a degree mill, is a phony university that sells college diplomas and transcripts—the actual pieces of paper—rather than the educational experience. Diploma mills are scam colleges that literally crank out fake diplomas to
anyone who pays the requested "tuition."
Diploma mills often promise a fast college degree based on "life experience."
The Get Educated online education team has prepared these Top 10 Signs of an Online College Degree Mill to help students protect themselves from this popular online scam.
I am a relative newcomer to contract instructing, having moved to Ontario from Saskatchewan in 2010, for family reasons related to health care for my younger son, who is a special-needs child. We moved from Saskatchewan because we were unable to get the health care we needed for him. My wife and I had a unique position at the University of Saskatchewan. We had a job share; she was on the tenure- track in Physics, and I was the teaching sidekick. This suited me, as I came late to university level teaching, working first as a research scientist in universities and then as a scientific computer programmer in the private sector. I did not have the conventional career trajectory of an academic employed in a tenured position at a university. We
moved to Ontario without having jobs to move into, but I was fortunate to be able to find work immediately at Carleton University as a laboratory supervisor. I was then offered contract instructor positions, and moved to teaching five one-semester Introductory Physics courses during the course of the year. To put this in perspective, this is the teaching load expected of a
full-time Instructor/Lecturer position, as defined in the Carleton faculty collective agreement. It would be extremely difficult to teach more than two of these courses in parallel—the workload would then be 50-60 hours per week. With my special-needs childcare commitments, this would be impossible. Nor would it be possible for me to take on a tenure-track position. The hours of work typically required to develop, fund, and launch a research program were more than I could actually devote to it. My ambition is more modest: to obtain a full-time instructor position and be able to develop better pedagogy for the teaching
of physics at the university level.
International students are increasingly regarded as ‘ideal‘, ‘model‘ or ’designer‘ immigrants for the labour markets of their host countries. Young, educated, and equipped with host country credentials and experiences, international students are
presumed to mitigate future talent shortages, especially in technical occupations in science, technology, engineering and mathematics (STEM). In an effort to retain more inter- national students for their domestic workforce, many host countries have passed legislation to improve post- study work and residency options for the ‘educational nomads’. However, despite these reforms and a high willingness to stay, many international students fail to find adequate employment. For example in Germany, 30 percent of former international students are still searching for a job more than one year aftergraduation.