Most of the phenomena in the world around you are, at the fundamental level, based on physics, and much of physics is based on mechanics. Mechanics begins by quantifying motion, and then explaining it in terms of forces, energy and momentum. This allows us to analyse the operation of many familiar phenomena around us, but also the mechanics of planets, stars and galaxies.
Mechanics: Motion, Forces, Energy and Gravity, from Particles to Planets
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Mechanics: Motion, Forces, Energy and Gravity, from Particles to Planets
Instructors: Prof. Joe Wolfe
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Approx. 25 hours
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There are 8 modules in this course
This introductory section covers some basic tools you will need to solve some of the physics problems we will encounter later.
What's included
5 videos2 readings6 assignments
Here we introduce kinematics, in which we describe and quantify movement of objects through space over time. Motion is so important to mechanics (and most of physics) that we'll spend a few weeks establishing the tools and techniques we'll need. We'll leave explaining motion to the later weeks, starting with Newton's laws in week 4. Here we study the simplest case: motion in a straight line.
What's included
4 videos1 reading5 assignments
Here we look at kinematics in two-dimensions – specifically, projectiles and objects in circular motion.
What's included
4 videos1 reading5 assignments1 peer review
After describing and quantifying motion (weeks 2 and 3), we now start explaining it with Newton's three laws of motion. Knowledge of Newton's laws and the ability to apply them to various situations will allow us to explain much of the motion we observe in the world around us. They are also very important for analysing things (like bridges) that don't move much (a subject called Statics that's important in some Engineering programs). Because Newton's laws are so important, week 4 has five lessons, as well as slightly longer quizzes than the previous chapters.
What's included
7 videos1 reading6 assignments
We return to the difference between weight and mass. We introduce Hooke's law for elastic deformations. We consider forces between objects in contact and (for convenience) resolve them into their normal and frictional components – and as usual give you some problems to solve.
What's included
4 videos1 reading5 assignments
In week 6 we explore work and energy, then power – the rate of doing work. We'll use work and Newton's second law to derive the quantity called kinetic energy. Looking at where work comes from, we'll distinguish two sorts of force – conservative and non-conservative. That will allow us to introduce potential energy and mechanical energy. Power is the rate of doing work. We'll spend some time relating these quantities and their units to your everyday experience, relating Joules to kilowatt hours (the unit used by electricity companies) and kilowatts to horsepower and to human power.
What's included
5 videos1 reading6 assignments1 peer review
It’s time for some smashing fun! Once we've defined momentum we'll use momentum to analyse elastic and inelastic collisions. Stand by for hammers, skateboards, car crashes and a bed of nails…
What's included
4 videos1 reading5 assignments
For as long as history – and probably much longer – people have stared at the planets and stars and wondered. Why do they shine? What keeps them moving? Why don't they fall down? So next is gravity – and how it runs the solar system, the galaxy and the universe. Escape speed, orbits, satellite manoeuvring, black holes: yes, all of the these.
What's included
5 videos1 reading6 assignments
Instructors
Instructor ratings
4.8 (208 ratings)
Recommended if you're interested in Physics and Astronomy
University of Arizona
University of Illinois Urbana-Champaign
University of Arizona
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