This course covers techniques for and critical thinking about the evaluation of changes in educational practices and policies in schools, organizations, and informal contexts. Topics include quantitative and qualitative methods for design and analysis, participatory design of practices and policies, institutional learning, the wider reception or discounting of evaluations, and selected case studies, including those arising from semester-long student projects.
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I designed the course for graduate students who use statistics in their research, plan to use statistics, or need to interpret statistical analyses performed by others. The primary audience are graduate students in the environmental sciences, but the course should benefit just about anyone who is in graduate school in the natural sciences. The course is not designed for those who want a simple overview of statistics; well learn by analyzing real data. This course or equivalent is required for UMB Biology and EEOS Ph.D. students. It is a recommended course for several of the intercampus graduate school of marine science program options.
An introduction to the main techniques of Artifical Intelligence: state-space search methods, semantic networks, theorem-proving and production rule systems. Important applications of these techniques are presented. Students are expected to write programs exemplifying some of techniques taught, using the LISP lanuage.
This graduate course will introduce students to the processes controlling phytoplankton, zooplankton, heterotrophic bacterial and benthic infaunal growth and abundance. We'll do a broad-scale survey of patterns of productivity and abundance in the coastal zones, upwelling centers, gyres, and the deep sea. We'll briefly survey ecosystem simulation models, especially those applicable to the Gulf of Maine. Readings will be from the primary literature and a few book chapters. The effects of anthropogenic effects on marine communities will be stressed throughout. Calculus will be used throughout the course, but there is no formal calculus requirement.
This course is an introduction to the calculus of functions of several variables. It begins with studying the basic objects of multidimensional geometry: vectors and vector operations, lines, planes, cylinders, quadric surfaces, and various coordinate systems. It continues with the elementary differential geometry of vector functions and space curves. After this, it extends the basic tools of differential calculus - limits, continuity, derivatives, linearization, and optimization - to multidimensional problems. The course will conclude with a study of integration in higher dimensions, culminating in a multidimensional version of the substitution rule.
Topics in this course include transcendental functions, techniques of integration, applications of the integral, improper integrals, l'Hospital's rule, sequences, and series.
This course is an introduction to differential and integral calculus. It begins with a short review of basic concepts surrounding the notion of a function. Then it introduces the important concept of the limit of a function, and use it to study continuity and the tangent problem. The solution to the tangent problem leads to the study of derivatives and their applications. Then it considers the area problem and its solution, the definite integral. The course concludes with the calculus of elementary transcendental functions.
Introduction to the fundamental principles of chemistry including atomic structure, stoichiometry, the periodic table of the elements, chemical bonding, molecular structure, and states of matter based on kinetic theory. This course is intended for majors in any of the sciences, including pre-dental, pre-medical, and pre-engineering students
This course will focus upon the geographers bi association of site and situation. The primary goal of the course is to increase the awareness of students through didactic knowledge that is necessary in the planning process. That leads to the course design which in the first part of the semester will focus upon site issues and the last part of the course will focus upon situation issues involving the interactions of the site.
How do individuals and families interface with larger systems, and how do therapists intervene collaboratively? How do larger systems structure the lives of individuals and families? Relationally-trained practitioners are attempting to answer these questions through collaborative and interdisciplinary, team-focused projects in mental health, education, the law, and business, among other fields. Similarly, scholars and researchers are developing specific culturally responsive models: outreach family therapy, collaborative health care, multi-systemic school interventions, social-justice-oriented and spiritual approaches, organizational coaching, and consulting, among others. This course explores these developments and aims at developing a clinical and consulting knowledge that contributes to families, organizations, and communities within a collaborative and social-justice-oriented vision.
CRW 111 students gain practice in applying effective strategies for understanding college material by relating generalization to supporting ideas and identifying the patterns into which ideas are structured. Students use computers to develop analytical capabilities in the course's computer lab component. CRW 111 carries 3 credits and meets 3 hours per week.
Beginning with the decline of the Roman Empire, this course discusses German, Muslim, Viking and Magyar invasions, the development of Catholicism in Western Europe and of Eastern Orthodoxy in the Byzantine Empire, the Arabic contribution to mathematics, science, and philsophy and the institutions of feudalism and manorialism. The course concludes with the economic, demographic and urban revival which began around 1000 AD.
This course for administrators provides knowledge and skills in supporting STEM infusion throughout Out-of-School environments. Administrators learn about Massachusetts Curriculum Frameworks, Universal Design for Learning, Thematic Curriculum and Project-Based Learning and explore strategies to implement improved lesson planning and instructional practice, creating a shift in policies and programmatic culture to develop a STEM-empowered program.
This course provides knowledge and skills in supporting English Language Development and Inclusive Learningthroughout Out-of-School (OST) environments. Educators learn learn to welcome, support, and enhance language and literacy skill development for all children and youth and respond appropriately to the individualized ELD needs of non-native speakers of English.
This course is designed to provide early childhood education professionals with the knowledge and skills to assess their own level in terms of the eight core competencies, across the infant-toddler, preschool and out-of-school age range. This survey course consists of eight learning modules. Each module is based on one of the eight core competencies: 1) understanding growth and development of children and youth, 2) guiding and interacting with children and youth, 3) partnering with families and communities, 4) health, safety and nutrition, 5) learning environments and curriculum, 6) observation, assessment and documentation, 7) program planning and development, and 8) professionalism and leadership. Includes Powerpoint audio lectures, syllabus, and self-assessments. This course can be used for self-documentation of professional development hours.
This course for Administrators provides knowledge and skills in supporting diverse families and enhancing English LanguageDevelopment (ELD) across expressive and receptive language domains for school-age children who are English Language Learners (ELL) or have other learning and language barriers. Administrators learn about key standards and best practices and explore strategies to implement improved practice, creating a shift in policies and programmatic culture to embrace and support diverse learners, welcoming non-native English speaking families and enhancing the ELD progress of students who are learners of English.
Environmental Geology is taught in a seminar fashion or large lecture style. In both situations it is the methodology not content that differs. The major goal of the course is to explore aspects of geology that have significant impacts on humans. Some of these impacts have been exacerbated culturally and historically. We will examine those factors and impacts.
Introduction to methods and problems in research and applications where quantitative data is analyzed to reconstruct possible pathways of development of behaviors and diseases. Special attention given to social inequalities, changes over the life course, heterogeneous pathways, and controversies with implications for policy and practice. Case studies and course projects are shaped to accommodate students with interests in fields related to health, gerontology, education, psychology, sociology, and public policy. Students are assumed to have a statistical background, but the course emphasizes the ability to frame the questions in order to collaborate well with statistical specialists; the goal is methodological "literacy" not technical expertise.
Estuarine Geography utilizes an ecological approach to understanding physical and biological parameters to estuarine evolution.. Superimposed upon that spatial site and situation are social, human, cultural and political activities. Humans role in estuarine evolution is discussed at length.