Author : Calvin Earl Stansbury
Publisher :
Page : pages
File Size : 15,68 MB
Release : 2018
Category :
ISBN :
Author : Ajai Cribbs Simmons
Publisher : Rowman & Littlefield
Page : 105 pages
File Size : 16,78 MB
Release : 2022-12-15
Category : Education
ISBN : 1475866291
Developmental Education Preparation suggests faculty development that can be used for teaching developmental education and corequisites courses, specifically in mathematics. Providing a look into the needs of students that may not be prepared for college level courses, the premise of the book is to prepare the faculty as much as possible to handle a developmental course. Complete with techniques, pedagogy, instructional skills, when combined all together, this book can help with developing meaningful professional development on any campus across the nation. The interviews presented in this book provide the reality of some faculty of developmental mathematics education and revealed common trends in the needs and characteristics of corequisite courses. Based on the themes found, professional development is suggested to aid in helping shift any negative components of those themes. The themes help better understand the needs of teaching these challenging courses. Student success should start with faculty making sure they are equipped with the tools and understanding of the students. Student’s readiness starts with the faculty’s readiness. Having the combined understanding of faculty and student needs can help to create a professional development plan that will enhance the developmental level mathematics courses in higher education.
Author : Michael David Preuss
Publisher :
Page : 0 pages
File Size : 24,82 MB
Release : 2008
Category : Mathematics
ISBN :
This ex post facto study of the relationship of selected personal traits and experiential characteristics of developmental mathematics faculty with student success rates was conducted a rural, North Carolina community college. The data gathered was from all classroom based sections of three levels of developmental mathematics taught between fall of 2003 and spring of 2007 and from faculty personnel records. Chi-square and p-value calculations were completed for 15 hypotheses regarding the impact of the traits and characteristics of the 24 developmental mathematics faculty on student success rates. Many of the comparisons made in the study are the first of their kind in developmental mathematics. Results indicate associations of both the personal traits and experiential characteristics of faculty with student success in developmental mathematics. These associations have implications for community colleges in respect to departmental or instructional planning, faculty professional development, faculty recruitment, institutional planning and educational research as well as implications for undergraduate and graduate instruction in mathematics and Education, for the governance of community college and university systems and for the actions of individual faculty and students within these institutions. Suggestions for further research are also included.
Author : Rachel Santiago
Publisher :
Page : pages
File Size : 23,23 MB
Release : 2017
Category : Dissertations, Academic
ISBN :
Author : Douglas Neal Donohue
Publisher :
Page : 56 pages
File Size : 18,91 MB
Release : 2017
Category :
ISBN :
This study examined the correlation between the proportion of full time mathematics faculty with formal pedagogical training at eight Mississippi public community colleges named to the Aspen Foundation list of the top 150 community colleges in the United States and the proportion of developmental math students who successfully completed a college algebra course in their 1st year, the proportion of students who graduated within 4 years, and the proportion of 1st -time full-time students who returned for the 2nd year. After collecting data from 6 of the 8 colleges, a correlational analysis revealed no statistically significant relationships between the proportion of pedagogically trained math faculty and the proportion of students who successfully completed developmental math, the proportion of students who successfully graduated, or the proportion of students who were retained. There may be some relationship between the faculty preparation and student success (p = 0.1441).
Author : Cecilia Le
Publisher :
Page : 20 pages
File Size : 36,53 MB
Release : 2011
Category :
ISBN :
Nearly 60 percent of incoming community college students are unprepared for college-level work and must take at least one pre-college, "developmental" course, usually in math or English, before enrolling in any credit-bearing classes toward a degree. Within developmental education, students are most likely to need help with mathematics, and students who enter community college needing to take developmental math fare the worst in terms of outcomes making this an issue that deeply affects students. Lack of readiness for college math is as damaging as it is widespread. Students are more likely to fail developmental mathematics than any other course in higher education, according to the Carnegie Foundation for the Advancement of Teaching. Thus, it is not surprising that many students referred to developmental math choose to bypass such courses and services, without knowing the detrimental consequences of this decision on their overall educational goals. This brief looks at three community colleges that have made significant investments in programs to improve student success in developmental math. These colleges are spotlighted for their implementation of the varied approaches to developmental math described above and for their ability to demonstrate outcomes for their students. The community colleges featured in this brief are: (1) Florence-Darlington Technical College in South Carolina; (2) Delaware County Community College in Pennsylvania; and (3) Chaffey College in California. (Contains 4 tables and 11 endnotes.).
Author : Teresa A. Muller
Publisher :
Page : pages
File Size : 11,5 MB
Release : 2002
Category : Community colleges
ISBN :
"This research compared the policies governing developmental mathematics education programs at thirteen community colleges in the state of Kansas with student's success in developmental mathematics courses. Particularly, this study sought to determine what policies had the greatest positive effect on students' success in developmental mathematics courses. The research design was two-phased. The first consisted of a survey of developmental mathematics education instructional leaders to examine their colleges' policies and collect data on student performance and persistence rates in developmental mathematics courses. Thirteen developmental mathematics education instructional leaders from Kansas's community colleges were surveyed. The community colleges surveyed had student enrollments ranging from 1064 to 7745 students, with 4285 students enrolled in developmental mathematics courses (Kansas Board of Regents, 2002). The second phase of the study consisted of interviewing three developmental mathematics instructional leaders from three different community colleges with high success rates among their developmental mathematics students. These success rates were derived from analysis of the student performance and persistence data collected in the surveys. Seventy-four percent of the developmental mathematics students enrolled in the fall of 1999 and the spring of 2000 at these three community colleges were successful in their developmental mathematics courses. The results of the study demonstrated the need for mandatory assessment and placement in developmental mathematics courses. Proper placement through mandatory placement policies and good counseling were vital to student success in developmental mathematics courses. Mandatory placement policies should not be waived. This study found that policies alone would not guarantee student success in developmental mathematics courses. Two other elements that increased students' success in developmental mathematics courses was the utilization of academic support centers and the developmental mathematics instructors' commitment to developmental mathematics students. The academic support centers, which include tutoring and computerized instruction, were essential components to facilitate student success. Community colleges need to make a commitment to their developmental mathematics students in order to increase students' opportunities for success"--Abstract.
Author :
Publisher :
Page : pages
File Size : 43,82 MB
Release : 1964
Category : Nudism
ISBN :
Author : Patricia A. Rehak
Publisher :
Page : pages
File Size : 36,17 MB
Release : 2015
Category : Educational psychology
ISBN :
This study provides a better understanding of how student and faculty perceive the developmental math classroom experience and the impact on students’ ability to successfully complete developmental math courses. A significant contribution of the study is the identification of a positive correlation between students’ attitudes and perceptions of the classroom environment and successful course completion. A second major contribution is a detailed description of pedagogical strategies and classroom leadership behaviors exhibited by developmental math faculty who do, and do not, have high student pass rates. The three research questions for this study were: 1. What is the relationship between students’ attitudes and perceptions of their developmental math classroom experience and their likelihood for successful course completion? 2. To what extent are student and faculty attitudes and perceptions of the developmental math classroom learning environment congruent? 3. What are the pedagogical strategies and classroom leadership behaviors exhibited by developmental math faculty who do, and do not, have high student pass rates in these courses? Two theoretical frameworks; Goal Theory Model of Achievement Motivation and Transformational Leadership; were used to guide this research. This mixed methods study was a case study of developmental math students and faculty from a medium sized rural community college in Texas, enrolled and teaching in the fall 2013. The sample included 661students enrolled in developmental math during the fall 2013 semester. There were a total of 17 developmental math instructors, of which three were employed full time, and 14 were employed part time. Quantitative data was collected from all 17 faculty and seven of these faculty were interviewed about the instructional practices they use when teaching developmental math students. A quantitative analysis was conducted of secondary course evaluation and student success data. A factor analysis was first conducted and reliability established for the course evaluation data. Next, a Pearson product moment r correlation was conducted in to determine the correlation between student perception and student success rates. The qualitative methods employed included 7 interviews (2 full time and 5 part time) with recruited developmental math faculty. Transcribed interview data were organized by thematic data analysis using a deductive process (Creswell, 2008) The Pearson product-moment r correlation conducted in this study found moderate positive correlations, r(14) = .64, p
Author : Elizabeth J. Meza
Publisher :
Page : 167 pages
File Size : 45,12 MB
Release : 2015
Category :
ISBN :
Almost half of all college students in the U.S. attend community colleges; almost sixty percent of these students are referred to remedial English, reading or math through means of a standardized placement exam, with math being a the greatest area of need. While these courses, often as many as four in a sequence, are meant to be a boost for students unprepared for college-level coursework, they have low success rates and few students make it through the entire sequence to succeed in a first college-level math course, leaving them far short of graduation or a meaningful credential. While developmental (aka remedial) education, those courses or sequences of courses below the college-level, has received a lot of attention recently due to its high costs and low student success rates, current research has largely failed to document, examine, or classify programmatic approaches to developmental education. This lack of information that would facilitate analysis is due in part to the relatively recent recognition of the problem, but it is also because of the difficulty accessing reliable information about large numbers of programs and the range of definitions, student populations, and perceived quickly shifting innovations (some may go as far as to say educational fads) that developmental education programs encompass. Unfortunately, this lack of a comprehensive picture of developmental education programs has led to either the complete elimination of the programs as unnecessary and perhaps counterproductive for students, or to a focus on a number of disparate approaches with little underlying theory behind them or even agreement as to the problem. This research is centered in 28 Washington state community college campuses and examines a mixed methods approach to answer three main questions: 1) To what extent and in what ways do math developmental program elements vary across institutions? Developmental education may vary widely even within one relatively homogenous state system of community colleges, such as the system in Washington. Programs have differing resources devoted to them, as well as differing pedagogy, intervention strategies and approaches, student referral and advancement policies, etc., and this variation has not even been fully described in previous research. 2) To what extent do student outcomes, as measured by completion of the developmental sequence, completion of a first college-level math course, and highest education reached, vary across the different math developmental education programs, after controlling for student characteristics, among the 28 community colleges in Washington State? What proportion of overall variance is contributed by student characteristics vs. programmatic factors? Wide institutional variation has been found in previous outcomes studies of professional-technical programs leading to terminal associate degrees in Washington, suggesting that institutional or programmatic variables may be contributing significantly to student success or lack of it (Scott-Clayton & Weiss, 2011). 3) What program policies and practices seem to be associated with positive outcomes for developmental education students? Can developmental education programs be categorized in some meaningful way? Is there a "typology" or categorization of programs that identifies characteristics that seem to be associated with either positive or negative results? For example, do schools with better (or worse) results, net of student characteristics, share identifiable programmatic characteristics in terms of policy and practice variables that are positively or negatively associated with student outcomes? I find from this research that strategies such as reducing the total number of courses in developmental education pathways, implementing alternatives to placement in developmental math via standardized tests, and better preparing students for assessment, are associated with greater student success in completing the developmental math sequence and in completing a first college level course. I also find that colleges with these more innovative features are significantly more successful than their more traditional institutional peers in terms of student outcomes. However, I also find no variation between colleges in the outcome of highest education reached, after controlling for student background characteristics. It seems that, at least for this sample, college did not have a significant association with ultimate educational attainment. Diving deeper to examine colleges' policies, practices, and the perspectives of students, faculty, and administrators, I find wide variation in pathways, program structure, assessment policies, connection to advising, tutoring, and institutional research departments, and day-to-day concerns and operations. One commonality is the conviction that teaching that addresses student motivation and confidence in their ability to learn math and peaks their interest, factors not usually examined systematically in higher education policy research, is central to developmental education student success. This research informs strategies for increased college completion for underprepared students. College completion has emerged as of paramount importance in fostering U.S. economic development and global competitiveness, yet if half of college students are unprepared for college work and thus are unlikely to persist to degree completion despite their motivation to attend college, serious attention should be paid to what can be done to increase their odds of success.
