The Physics of Sports - A guide for coaches, teachers and all sports fans - udemy

Many of us, in way or another, have some kind of a connection to sport. Some will be sports professionals, such as coaches and athletes, whereas others may be casual spectators admiring the achievements of competitors. Like most things in life, those achievements are determined by scientific principles.

This coursework aims to provide an understanding of the physical mechanisms behind lots of popular sporting events.

Understand the Science driving Sporting Performance

1. Learn how speed and acceleration relate to sprinting
2. Understand how Newton's laws of motion select the path of a footy
3. Apply the principles of rotational motion to gymnastics, figure skating and diving
4. Use the principle of energy conversion for estimating the height achieved in the pole vault
5. Learn what the optimum launch angles are for the long jump and other sports projectiles
6. Apply basic aerodynamics principles to the javelin throw, ski leaping and swimming
7. Estimate the effect of wind speed, altitude, temperature and equipment on various sports

Based on my successful book, "An Introduction to the Physics of Sports"!

How are Newton's laws connected to footy, and various forms of energy to walking? What is the relationship between figure skating pirouettes and rotational motion? Do basic aerodynamics ideas influence performance in ski leaping, and hydrodynamics mechanisms, the world records in swimming?

Course Contents and Overview

The objective of this coursework is to present the physical laws that affect various sports. With the help of simple simulations and graphs, it is basically appreciated that science defines the performance of athletes, whereas simultaneously the student is introduced to basic physics ideas in a novel and pleasant way.

In the seven sessions of the coursework, the scientific principles and theory governing specific sports and the performance of athletes are introduced. For example, the ideas of velocity and acceleration are analysed through the performance of the leading short-distance athlete, Usain Bolt and Newton's essential laws of motion are portrayed in footy and basketball.

The coursework includes 24 lectures with very two hours of video content, links to numerous scientific articles of mine on sports physics and links to lots of videos of great sporting moments. At the finish of each session a quiz is included to evaluate student understanding.

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