Acute and chronic physiological adaptations to exercise stress. Topics include: metabolic, skeletal muscle, respiratory and cardiovascular function during exercise, body composition, the elite athlete, ergogenic acids, and performance. Includes labs on techniques to quantify human performance capacity.

Acute and chronic physiological adaptations to exercise stress. Topics include: metabolic, skeletal muscle, respiratory and cardiovascular function during exercise, body composition, the elite athlete, ergogenic acids, and performance. Includes labs on techniques to quantify human performance capacity.

Acute and chronic physiological adaptations to exercise stress. Topics include: metabolic, skeletal muscle, respiratory and cardiovascular function during exercise, body composition, the elite athlete, ergogenic acids, and performance. Includes labs on techniques to quantify human performance capacity.

Acute and chronic physiological adaptations to exercise stress. Topics include: metabolic, skeletal muscle, respiratory and cardiovascular function during exercise, body composition, the elite athlete, ergogenic acids, and performance. Includes labs on techniques to quantify human performance capacity.

Acute and chronic physiological adaptations to exercise stress. Topics include: metabolic, skeletal muscle, respiratory and cardiovascular function during exercise, body composition, the elite athlete, ergogenic acids, and performance. Includes labs on techniques to quantify human performance capacity.

Acute and chronic physiological adaptations to exercise stress. Topics include: metabolic, skeletal muscle, respiratory and cardiovascular function during exercise, body composition, the elite athlete, ergogenic acids, and performance. Includes labs on techniques to quantify human performance capacity.

Introduction to neuroscience emphasizing the control, sensation, and perception related to human movement. Topics include a general overview of issues in motor control and a review of Central Nervous System (CNS) organization; basic CNS building blocks underlying movement control and perception; application to the control of balance and locomotion in development, aging, and disease; mechanisms of brain plasticity in development, learning, and rehabilitation.

Introduction to neuroscience emphasizing the control, sensation, and perception related to human movement. Topics include a general overview of issues in motor control and a review of Central Nervous System (CNS) organization; basic CNS building blocks underlying movement control and perception; application to the control of balance and locomotion in development, aging, and disease; mechanisms of brain plasticity in development, learning, and rehabilitation.

Introduction to neuroscience emphasizing the control, sensation, and perception related to human movement. Topics include a general overview of issues in motor control and a review of Central Nervous System (CNS) organization; basic CNS building blocks underlying movement control and perception; application to the control of balance and locomotion in development, aging, and disease; mechanisms of brain plasticity in development, learning, and rehabilitation.

Introduction to neuroscience emphasizing the control, sensation, and perception related to human movement. Topics include a general overview of issues in motor control and a review of Central Nervous System (CNS) organization; basic CNS building blocks underlying movement control and perception; application to the control of balance and locomotion in development, aging, and disease; mechanisms of brain plasticity in development, learning, and rehabilitation.