Students become product engineers in a bouncy ball factory as they design …
Students become product engineers in a bouncy ball factory as they design and prototype a polymer bouncy ball that meets specific requirements: must be spherical in shape, cannot disintegrate when thrown on the ground, and, of course, must bounce. Along with these design elements, students can build (with teacher assistance) a “shadow box” that helps measure the contact angle of the polymer that provides data on how to iterate. In addition, students must consider the aesthetics of their bouncy balls for customer approval and marketing purposes. Using the engineering design process, students design and create bouncy balls from polymers to create a fun, exciting toy for children.
This is an entire course/e-textbook that was formerly the Boundless Business text …
This is an entire course/e-textbook that was formerly the Boundless Business text that was purchased by Lumen Learning and maintained in its current form.
The material presented in this resource is generally accurate especially considering that it reflects standard business practices and concepts that have changed little. A few of the examples given in the text could be a bit dated, which indicates that its utility may come from linking to specific parts of the course rather than using it as an entire textbook substitute. There does not appear to be a great deal of bias with this work, since its positioning is relatively generic to the facts and figures and it typically steers clear of opinions and judgments. An instructor could easily remix this with more current, relevant, and culturally deeper examples.
The text includes detailed images and graphs that are well done and help drive home visual concepts. It is limited in terms of interactivity and is still a text heavy presentation. This material is published as CC-Sharealike so it can be remixed but not revised. Lumen has taken some responsibility for the fact that it can still be edited but likely not updated to increase its currency. Since Lumen owns this material, it is likely to be here in this state for a long while.
Most of the material is relevant to any Introductory Business course with concepts that would apply for a long period of time. This material generally ages well, it just needs to be paired with continually more updated and relevant examples as technologies and markets change. Student could likely meet their learning goals and interests with this material as a support (curated by the instructor) to an existing course but it likely does not standalone as a full course resource. It seems most useful for providing depth to key points with direct links to sub-pages within this course.
This catalog contains educational content originally curated by Boundless. In collaboration with …
This catalog contains educational content originally curated by Boundless. In collaboration with the Boundless team, Lumen Learning imported these OER courses to the Lumen Platform, to ensure they remain freely available to the education community after Boundless ceased operations. Lumen maintains the Boundless content in the same condition it was provided to us. Courses may contain issues with formatting, accessibility, and the degree to which content remains current, accurate, and complete.
Students find the volume and surface area of a rectangular box (e.g., …
Students find the volume and surface area of a rectangular box (e.g., a cereal box), and then figure out how to convert that box into a new, cubical box having the same volume as the original. As they construct the new, cube-shaped box from the original box material, students discover that the cubical box has less surface area than the original, and thus, a cube is a more efficient way to package things. Students then consider why consumer goods generally aren't packaged in cube-shaped boxes, even though they would require less material to produce and ultimately, less waste to discard. To display their findings, each student designs and constructs a mobile that contains a duplicate of his or her original box, the new cube-shaped box of the same volume, the scraps that are left over from the original box, and pertinent calculations of the volumes and surface areas involved. The activities involved provide valuable experience in problem solving with spatial-visual relationships.
To display the results from the previous activity, each student designs and …
To display the results from the previous activity, each student designs and constructs a mobile that contains a duplicate of his or her original box, the new cube-shaped box of the same volume, the scraps that are left over from the original box, and pertinent calculations of the volumes and surface areas involved. They problem solve and apply their understanding of see-saws and lever systems to create balanced mobiles.
This art history video discussion examines John Singleton Copley's "A Boy with …
This art history video discussion examines John Singleton Copley's "A Boy with a Flying Squirrel" (Henry Pelham), 1765, 77.15 x 63.82 cm / 30-3/8 x 25-1/8 inches (Museum of Fine Arts, Boston).
An advanced course covering anatomical, physiological, behavioral, and computational studies of the …
An advanced course covering anatomical, physiological, behavioral, and computational studies of the central nervous system relevant to speech and hearing. Students learn primarily by discussions of scientific papers on topics of current interest. Recent topics include cell types and neural circuits in the auditory brainstem, organization and processing in the auditory cortex, auditory reflexes and descending systems, functional imaging of the human auditory system, quantitative methods for relating neural responses to behavior, speech motor control, cortical representation of language, and auditory learning in songbirds.
This course provides an outline of vertebrate functional neuroanatomy, aided by studies …
This course provides an outline of vertebrate functional neuroanatomy, aided by studies of comparative neuroanatomy and evolution, and by studies of brain development. Topics include early steps to a central nervous system, basic patterns of brain and spinal cord connections, regional development and differentiation, regeneration, motor and sensory pathways and structures, systems underlying motivations, innate action patterns, formation of habits, and various cognitive functions. In addition, lab techniques are reviewed and students perform brain dissections.
Survey of principles underlying the structure and function of the nervous system, …
Survey of principles underlying the structure and function of the nervous system, integrating molecular, cellular, and systems approaches. Topics: development of the nervous system and its connections, cell biology or neurons, neurotransmitters and synaptic transmission, sensory systems of the brain, the neuroendocrine system, the motor system, higher cortical functions, behavioral and cellular analyses of learning and memory. First half of an intensive two-term survey of brain and behavioral studies for first-year graduate students. Open to graduate students in other departments, with permission of instructor.
This class is the second half of an intensive survey of cognitive …
This class is the second half of an intensive survey of cognitive science for first-year graduate students. Topics include visual perception, language, memory, cognitive architecture, learning, reasoning, decision-making, and cognitive development. Topics covered are from behavioral, computational, and neural perspectives.
Students learn about the similarities between the human brain and its engineering …
Students learn about the similarities between the human brain and its engineering counterpart, the computer. Since students work with computers routinely, this comparison strengthens their understanding of both how the brain works and how it parallels that of a computer. Students are also introduced to the "stimulus-sensor-coordinator-effector-response" framework for understanding human and robot actions.
This task provides an exploration of a quadratic equation by descriptive, numerical, …
This task provides an exploration of a quadratic equation by descriptive, numerical, graphical, and algebraic techniques. Based on its real-world applicability, teachers could use the task as a way to introduce and motivate algebraic techniques like completing the square, en route to a derivation of the quadratic formula.
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