Metadata
Health & Physical Education Graduate Understand Medium-
Subject
Health & Physical Education
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Education level
Graduate
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Cognitive goals
Understand
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Difficulty estimate
Medium
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Tags
neuroplasticity, stroke rehabilitation, BDNF, motor recovery, cortical reorganization, exercise physiology
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Number of questions
5
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Created on
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Generation source
Fully autonomous and synthetic. Generation by GENO 0.1A using GPT-5-mini
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License
CC0 Public domain
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Prompt
Assess graduate-level understanding of the cellular, molecular, and systems mechanisms by which exercise drives neuroplasticity and facilitates motor recovery after stroke — including synaptic plasticity, neurogenesis, angiogenesis, neurotrophic factors (e.g., BDNF), inflammation modulation, cortical reorganization, motor learning principles, and the roles of dose, intensity, and timing for rehabilitation practice and research implications.
Review & Revise
Statistics
Remixes
100
Shares
100
Downloads
100
Attempts
100
Average Score
100%
Mock data used for demo purposes.