This introductory unit will provide students with skills and understanding of measurement and analysis core to becoming a proficient exercise professional. Students will learn technical skills for exercise data collection, the data handling, calculations and analytical approaches to examining data, and research methods used to collect evidence. Critical thinking approaches will be used to develop skills for assessing quality of evidence in exercise science. A focus of 23 May 2019 Page 5 Introduction to Exercise Science is the development of discrete skills and understanding of their application for accuracy.

This unit aims to develop an appreciation of how mechanical principles can be applied to understand the underlying causes of human movement. Topics include: kinematics, vectors, Newton's laws of motion, work, energy, power, and momentum; for both translational and rotational motion; and the influence of fluids on motion. Emphasis is placed on developing mathematical skills and analytical problem- solving techniques. The laboratory classes complement the lectures; providing opportunities to validate mechanical principles in a quantitative manner.

The main emphasis of this unit is in developing practical expertise in techniques for the biomechanical analysis of human movement. Students will learn how to conduct kinematic and kinetic analyses, using video, force platforms and electromyography. Other components of this unit are aimed at further development of mathematical and problem-solving skills for the analysis of movement. Topics include static and dynamic equilibrium, calculation of centre of mass, determination of joint torques using inverse dynamics, electromyography, tissue mechanics and gait analysis.

This unit provides students with a broad overview of motor control and learning with the aim of stimulating students to think about the mechanisms of normal human movement. Both a behavioural and a neurophysiological approach are taken to understand the acquisition and execution of skilled motor actions. The behavioural approach is directed at the structures and processes underlying movement without considering their physical basis, while the neurophysiological approach is directed at the neuromuscular machinery and the functional neural connections that govern movement.