Notes from MIT’s Online Education Policy Initiative Report, Pages 6-10
ER: Constructivism: Dewey, experiential learning, Piaget, Vygotsky, Montessori, inquiry and discovery. Active learning, teaching laboratories, Amos Eaton (1824), active instruction, Mazur, peer learning, all-hands-on courses, mini-lectures, simulations experiments. Online counterparts are flipped classroom. Project -based learning, video disks, personal computers and calculators. Papert’s Constructionism, a refinement of constructivism, development of Lego Mindstorms, robot design, prototyping technologies. Problem-based learning, imprecisely defined problems, self-directed learning peer learning, teamwork, internships, work-study programs, blurred boundaries between college and workplace. Student-centered education, reflection, discussion, interdisciplinary thinking, self-paced learning, Bloom, students in small cohorts. Online counterparts are Peer2Peer University where peer is the primary instructor.
CS: level of the brain, Ebbinghaus, how memories form and persist, mind wandering, task-unrelated thoughts, make students curious, retrieval practice, engaging repeatedly in recall activities
is called interpolated testing, block of practice right after students have learned a topic, contrast between storage strength and retrieval strength, concept of desirable
difficulties,generation effect, generation of answers can help learning even if they are wrong, and feedback is effective even if it is corrective. Cognitive load theory, “compression” of new information, novices should be given worked examples
rather than open-ended problems. Impact of context, the context of the learning reflect the context in which that information will likely be used.
N: level of the neurons, initial encoding, integration of memories, consolidation, synaptic and system levels, sleep, blocked learning may be associated with saturation at the synapse during a process known as long-term potentiation, cognitive load has been shown to be measurable using pupillary dilation, activation of sensorimotor brain regions would enhance understanding of torque and angular momentum, MRI shows more active training
methods correlated not only with better test performance but also with greater stimulation of the predicted brain regions
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