Students design and build their own model levees. Acting as engineers for …
Students design and build their own model levees. Acting as engineers for their city, teams create sturdy barriers to prevent water from flooding a city in the event of a hurricane.
Students are introduced to the (hypothetical) task of developing an invisible (non-intrusive) …
Students are introduced to the (hypothetical) task of developing an invisible (non-intrusive) security system to protect the school's treasured mummified troll! Solving the challenge depends on an understanding of the properties of light. After being introduced to the challenge question, students generate ideas and consider the knowledge required find solutions. They watch a portion of the "Mythbuster's Crimes and Myth-Demeanors" episode ($20), which helps direct their research and learning toward solving the challenge. They begin to study laser applications in security systems, coming to realize the role of lasers in today's society.
Students learn how biomedical engineers work with engineers and other professionals to …
Students learn how biomedical engineers work with engineers and other professionals to develop dependable medical devices. Specifically, they learn about suction pumps, which are important devices to keep in good repair, especially when they are used in remote locations. Student teams brainstorm, sketch, design and create prototypes of suction pump protection devices to keep fluid from backing up and ruining the pump motors. Using a real suction pump, they conduct repeated trials to test their devices for reliability, making improvements as necessary.
Seminar covering topics of current interest in biology. Includes reading and analysis …
Seminar covering topics of current interest in biology. Includes reading and analysis of research papers and student presentations. Contact Biology Education Office for topics. This course is one of many Advanced Undergraduate Seminars offered by the Biology Department at MIT. These seminars are tailored for students with an interest in using primary research literature to discuss and learn about current biological research in a highly interactive setting. The instructor for this course, Dr. Kosinski-Collins, is a member of the HHMI Education Group. Maintenance of the complex three-dimensional structure adopted by a protein in the cell is vital for function. Oftentimes, as a consequence of environmental stress, genetic mutation, and/or infection, the folded structure of a protein gets altered and multiple proteins stick and fall out of solution in a process known as aggregation. In many protein aggregation diseases, incorrectly folded proteins self-associate, forming fiber-like aggregates that cause brain cell death and dementia. In this course, the molecular and biochemical basis of the prion diseases, which include bovine spongiform encephalopathy (mad cow disease), Creutzfedt-Jakob disease and kuru will be examined. Also discussed are other classes of misfolding diseases such as Alzheimer's disease and Huntington's disease. The proteins involved in all of these disorders and how the proteins' three dimensional structures change during the course of these afflictions is covered as well as why prions from certain species cannot infect animals from other species based on protein sequence and structure. The course will then address possible detection methods and therapies that are under development to treat some of the protein aggregation diseases.
For students and teams who have started a sustainable-development project in D-Lab …
For students and teams who have started a sustainable-development project in D-Lab (SP.721, SP.722), the IDEAS Competition, Design for Demining (SP.786), Product Engineering Processes (2.009), or elsewhere, this class provides a setting to continue developing projects for field implementation. Topics covered include prototyping techniques, materials selection, design-for-manufacturing, field-testing, and project management. All classwork will directly relate to the students' projects, and the instructor will consult on the projects during weekly lab time. There are no exams. Teams are encouraged to enroll together.
In the past building prototypes of electronic components for new projects/products was …
In the past building prototypes of electronic components for new projects/products was limited to using protoboards and wirewrap. Manufacturing a printed-circuit-board was limited to final production, where mistakes in the implementation meant physically cutting traces on the board and adding wire jumpers - the final products would have these fixes on them! Today that is no longer the case, while you will still cut traces and use jumpers when debugging a board, manufacturing a new final version without the errors is a simple and relatively inexpensive task. For that matter, manufacturing a prototype printed circuit board which you know is likely to have errors but which will get the design substantially closer to the final product than a protoboard setup is not only possible, but desirable. In this class, you'll learn to design, build, and debug printed-circuit-boards.
Psychology is designed to meet scope and sequence requirements for the single-semester …
Psychology is designed to meet scope and sequence requirements for the single-semester introduction to psychology course. The book offers a comprehensive treatment of core concepts, grounded in both classic studies and current and emerging research. The text also includes coverage of the DSM-5 in examinations of psychological disorders. Psychology incorporates discussions that reflect the diversity within the discipline, as well as the diversity of cultures and communities across the globe.Senior Contributing AuthorsRose M. Spielman, Formerly of Quinnipiac UniversityContributing AuthorsKathryn Dumper, Bainbridge State CollegeWilliam Jenkins, Mercer UniversityArlene Lacombe, Saint Joseph's UniversityMarilyn Lovett, Livingstone CollegeMarion Perlmutter, University of Michigan
Psychology 2e is designed to meet scope and sequence requirements for the …
Psychology 2e is designed to meet scope and sequence requirements for the single-semester introduction to psychology course. The book offers a comprehensive treatment of core concepts, grounded in both classic studies and current and emerging research. The text also includes coverage of the DSM-5 in examinations of psychological disorders. Psychology incorporates discussions that reflect the diversity within the discipline, as well as the diversity of cultures and communities across the globe.
The second edition contains detailed updates to address comments and suggestions from users. Significant improvements and additions were made in the areas of research currency, diversity and representation, and the relevance and recency of the examples. Many concepts were expanded or clarified, particularly through the judicious addition of detail and further explanation where necessary. Finally, the authors addressed the replication issues in the psychology discipline, both in the research chapter and where appropriate throughout the book.
Changes made in Psychology 2e are described in the preface to help instructors transition to the second edition. The first edition of Psychology by OpenStax is available in web view here.
By the end of this section, you will be able to:Identify the …
By the end of this section, you will be able to:Identify the basic parts of a neuronDescribe how neurons communicate with each otherExplain how drugs act as agonists or antagonists for a given neurotransmitter system
By the end of this section, you will be able to:Explain the …
By the end of this section, you will be able to:Explain the basic principles of the theory of evolution by natural selectionDescribe the differences between genotype and phenotypeDiscuss how gene-environment interactions are critical for expression of physical and psychological characteristics
By the end of this section, you will be able to:Describe the …
By the end of this section, you will be able to:Describe the difference between the central and peripheral nervous systemsExplain the difference between the somatic and autonomic nervous systemsDifferentiate between the sympathetic and parasympathetic divisions of the autonomic nervous system
By the end of this section, you will be able to:Explain the …
By the end of this section, you will be able to:Explain the functions of the spinal cordIdentify the hemispheres and lobes of the brainDescribe the types of techniques available to clinicians and researchers to image or scan the brain
By the end of this section, you will be able to:Identify the …
By the end of this section, you will be able to:Identify the major glands of the endocrine systemIdentify the hormones secreted by each glandDescribe each hormone’s role in regulating bodily functions
By the end of this section, you will be able to:Explain the …
By the end of this section, you will be able to:Explain the major theories of emotionDescribe the role that limbic structures play in emotional processingUnderstand the ubiquitous nature of producing and recognizing emotional expression
By the end of this section, you will be able to:Describe how …
By the end of this section, you will be able to:Describe how hunger and eating are regulatedDifferentiate between levels of overweight and obesity and the associated health consequencesExplain the health consequences resulting from anorexia and bulimia nervosa
By the end of this section, you will be able to:Define intrinsic …
By the end of this section, you will be able to:Define intrinsic and extrinsic motivationUnderstand that instincts, drive reduction, self-efficacy, and social motives have all been proposed as theories of motivationExplain the basic concepts associated with Maslow’s hierarchy of needs
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