- What does it take to really understand physics?
The crucial problem in teaching physics is that most people have a certain understanding of physical principles before they ever approach the subject in a classroom or book. The reason this is a problem rather than a benefit is that the average person’s understanding of physics is wrong.
To be more specific, there are two kinds of “understanding” one can have about physics. The first is the one that babies slowly gain as they teeter precariously on their pudgy little legs and try to manipulate solid objects with their hands and, occasionally, mouths. This is baby science in action: after a few hundreds trials, even an infant’s brain knows that if you push an object to the right, it will generally move in that direction.
By the time we’ve grown up, this understanding has solidified into that intuitive, unconscious awareness of the relationship between cause and effect which allows us to catch baseballs, flip pancakes, or juggle chainsaws.
The second kind of understanding is the one that physicists have been broadening and improving on for hundreds of years. And the funny thing about it is that it seems to contradict all of our everyday experiences about the world.
This is not as much of a problem in the other sciences, even ones that impact our daily lives. You can use toothpaste (created by a chemist) without having to first experiment with smoking chemicals in glass beakers. You can squish a mosquito against your arm without first memorizing its precise biological taxonomy. But you do need to spend every second of your life trying to survive in a world governed by physical laws, and that can create a deceptive familiarity.
Take, for example, a simple problem relating to motion. Imagine that you tape a golf ball to a ceiling fan, because that’s just the kind of person you are. You stand under this fan and watch the golf ball spinning around at high speeds. Suddenly, the tape comes off and the golf ball goes flying. Aside from the fact that the golf ball will fall downwards, how would you describe the ball’s motion as it flies through the air?
A. It curves towards the fan.
B. It travels in a straight line.
C. It curves away from the fan.
Most people would guess A.1 The correct answer, though, is B. The reason this seems contradictory to everyday experience is that when something is spinning, it usually keeps spinning.
Physics does more than offer a mere explanation for the golf ball’s behaviour; it offers a whole new perspective on the situation. When you think like a physicist, you no longer see a golf ball and some bits of tape. You imagine forces pushing the ball in different directions, energy shifting form and transferring from one object to another, and, if you’re really lucky, mathematical variables changing within the constraints of elegant formulae.
The first step towards this new awareness is to accept that everything you think you know about reality is probably wrong.
However, this should not be a terrifying prospect: instead, I suggest that it will liberate you from the dead weight your mind has accumulated. To truly learn physics is to approach the universe once again as a child — but this time, armed with the power of science.
Before we get into the really meaty stuff, you’ll need to to familiarize yourself with the language of physics. As you read this website, you will come across words which mean one thing in everyday language, but which in physics have either very different or much more specific definitions. Our first examples come from the world of motion, which is the subject of the first chapter.
- When learning about physics, it is important to recognize and challenge your preconceptions about physical phenomena.
- On this site, you will learn not just facts but also the technique of Thinking Like A Physicist.
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- If you know a little bit of physics, you probably guessed B. If you know a lot of physics and can accurately describe fluid dynamics and the Magnus effect, you might guess A, but in that case you may be reading the wrong website. If you guessed C, you probably had your reasons. ↩