Motor Learning and Development, Second Edition With Web Resource, provides a foundation for understanding how humans acquire and continue to hone their movement skills throughout the life span.
Why Motor Skills Matter shows how children use their senses and bodies to explore their environments and what we can do to protect and strengthen this critical pathway for their development, health, and learning.
This is an ideal text for motor behaviour and cognitive psychology courses, as well as a reference for professionals with an interest in motor behaviour and human movement. It explores how focus of attention can affect motor performance, particularly the learning of motor skills.
Motor Learning and Performance: From Principles to Application, Sixth Edition With Web Study Guide, enables students to appreciate high-level skilled activity and understand how such incredible performances occur. Written in a style that is accessible even to students with little or no knowledge of physiology, psychology, statistical methods, or other basic sciences, this text constructs a conceptual model of factors that influence motor performance, outlines how motor skills are acquired and retained with practice, and shows students how to apply the concepts to a variety of real-world settings. The sixth edition of Motor Learning and Performance has been carefully revised to incorporate the most important research findings in the field, and it is supplemented with practice situations to facilitate a stronger link between research-based principles and practical applications. Other highlights include the following: A web study guide offers updated principles-to-application exercises and additional interactive activities for each chapter, ensuring that students will be able to transfer core content from the book to various applied settings. Extensive updates and new material related to the performance of complex movements expand the theoretical focus to a more in-depth analysis of dynamical systems and the constraints-led approach to learning. Narratives from Motor Control in Everyday Actions that appear in the web study guide tie each book chapter to concrete examples of how motor behavior is applicable to real life. Photo caption activities pose questions to students to encourage critical thinking, and answers to those questions are provided to instructors in the instructor guide. As the text investigates the principles of human performance, pedagogical aids such as learning objectives, key terms, and Check Your Understanding questions help students stay on track with learning in each chapter. Focus on Research and Focus on Application sidebars deliver more detailed research information and make connections to real-world applications in areas such as teaching, coaching, and therapy. The sixth edition of Motor Learning and Performance: From Principles to Application goes beyond simply presenting research—it challenges students to grasp the fundamental concepts of motor performance and learning and then go a step further by applying the concepts. Incorporating familiar scenarios brings the material to life for students, leading to better retention and greater interest in practical application of motor performance and learning in their everyday lives and future careers.
Integrating theory with practice, this core textbook provides a structured and sequential introduction to motor learning and motor control. Part 1 begins by introducing what motor learning is and how movement is controlled, before exploring how a learning environment may be manipulated to assist in the learning and performance of movement skills. Part 2 explores motor control from neural, behavioural and dynamic systems perspectives. Part 3 provides an overview of considerations in applying motor learning and skill acquisition principles to physical education, exercise and sports science. Chapters are illustrated with flowcharts and diagrams to aid students' understanding, and include activities and end-of-chapter review questions to consolidate knowledge. Motor Learning and Skill Acquisition is essential reading for all Physical Education, Exercise and Sports Science and Sports Coaching students. New to this Edition: - New and updated chapters on skill acquisition approaches, talent identification and development, and performance analysis and feedback as well as separate chapters on practice design and task modification, and practice organisation and planning - Contains additional content on decision-making, tactical and strategic skills, traditional and constraints-led skill acquisition approaches, practice design, and skill-drill and game-based practice for skill acquisition - Supported by a bank of online lecturer resources, including PowerPoints, MCQs and lab activities
With an array of critical and engaging pedagogical features, the fourth edition of Motor Learning and Control for Practitioners offers the best practical introduction to motor learning available. This reader-friendly text approaches motor learning in accessible and simple terms, and lays a theoretical foundation for assessing performance; providing effective instruction; and designing practice, rehabilitation, and training experiences that promote skill acquisition. Features such as Exploration Activities and Cerebral Challenges involve students at every stage, while a broad range of examples helps readers put theory into practice. The book also provides access to a fully updated companion website, which includes laboratory exercises, an instructors’ manual, a test bank, and lecture slides. As a complete resource for teaching an evidence-based approach to practical motor learning, this is an essential text for practitioners and students who plan to work in physical education, kinesiology, exercise science, coaching, physical therapy, or dance.
Our motor skills determine how well we perform in athletics, dance, music, and in carrying out countless daily chores. While our proficiency at performing individual actions and synthesizing them into seamless sequences limits our athletic and artistic talents, we are not perpetually bound by such limitations. The nervous system can acquire new, and modify old, motor behaviors through experience and practice. That is motor learning.The Acquisition of Motor Behavior in Vertebratesprovides a broad, multidisciplinary survey of recent research on the brain systems and mechanisms underlying motor learning. Following the editors' introduction, nineteen contributions report on the neurobiology of these higher brain functions and on diverse types of motor learning such as reflex adaptation, conditioned and instrumental reflex learning, visually guided actions, and complex sequences and skills.
Both the acquisition of new and the modification of previously acquired motor skills are necessary to achieve optimal levels of motor performance in everyday functioning as well as to attain expert performance levels that are evident in sports and arts. A multitude of factors have been shown to influence the various stages of the learning process, from the acquisition (i.e., motor memory encoding) to the consolidation and subsequent retention of a skill. These factors, or modulators, can affect learning through online processes taking place during practice of a new motor skill or through offline processes occurring in the absence of task performance (i.e., after training sessions). Although much of the recent research from various disciplines has placed an increased emphasis on identifying factors that can influence the motor learning process, we lack an integrated understanding of online and offline determinants of motor skill behaviours. Potential motor learning modulators include, but are certainly not limited to, stress, anxiety, attention, executive functioning, social interaction, stimulus-response mapping, training schedule/regimen, learning environment, vigilance/consciousness states including sleep, wakefulness or meditation, brain stimulation, interference as well as resting state brain connectivity. Pathological and non-pathological (i.e., development or aging) changes in the brain can also be conceptualized as potential modulators. The aim of this Research Topic is to bridge research from the cognitive, sensory, motor and psychological domains using various behavioural paradigms and neuroimaging techniques in order to provide a comprehensive view of the online and offline modulators of motor learning, and how they interact to influence motor performance. Critically, the overarching goal is to gain a better understanding of how motor behaviour can be optimized. We believe that merging research from diverse neuroscientific communities would contribute to fulfilling this goal and potentially highlight possible shared neurophysiological mechanisms influencing motor learning.