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  • LEWIN: Well, 8.02 is, of course,

  • largely about electricity and magnetism.

  • And at the heart of electricity and magnetism

  • are the four, the famous four, equations.

  • We call them the Maxwell's equations.

  • It's quite a difficult course for students.

  • And I go out of my way to also introduce many phenomena

  • that they see around them and make those phenomena connect

  • with electricity and magnetism, for instance, lightning.

  • I do an electrocardiogram in class.

  • I discuss metal detectors.

  • I discuss musical instruments, magnetic levitation.

  • I talk about Northern Lights, which

  • is very relevant to electricity and magnetism.

  • I spent almost a whole lecture on particle accelerators.

  • I tell them why the sunsets are red and why the skies are blue.

  • I talk about rainbows, about halos, about glories.

  • I talk about color perception.

  • And since I do Doppler effect, I also

  • talk about Big Bang cosmology.

  • And then during my very last lecture,

  • I introduce them to my research, the research

  • I did during my early days at MIT, when

  • I was making X-ray observations from very high-flying balloons,

  • altitude of 140,000, 150,000 feet.

  • So my goal is, wherever possible,

  • to make them see through the equations,

  • to make you see the beauty all around them, and by doing

  • that to make them love physics.

  • Well, the 8.02 course is the second course in physics.

  • It's mandatory.

  • It's what we call a General Institute Requirement.

  • You either have to take this course,

  • or you have to take one which is a slightly higher level, 8.02

  • II.

  • So it is the basis that students get during their first year.

  • 8.01, the Newtonian mechanics, and then 8.02,

  • the electricity and magnetism.

  • And if they go into physics, of course, they get a lot more.

  • But if they never go into physics,

  • then this is all they will ever see about physics,

  • which is quite a lot actually.

  • We evaluate the students through traditional exams.

  • The lectures are given in the main lecture hall of MIT,

  • and then the students meet in smaller groups with professors.

  • We call those recitations, which is largely problem solving.

  • There are many events in this course.

  • Every lecture is an event.

  • And the students who have taken me,

  • they'll tell you that, indeed, going to my lectures

  • is an event.

  • I'm not a very traditional lecturer.

  • So therefore, I would really like

  • to think that each lecture is an event.

  • We do have a contest, which is very, very popular.

  • We hand to the students a piece of wood, some copper wire,

  • a few paper clips, and two magnets.

  • And the goal is to make an electric motor.

  • And they get course credit depending

  • upon how fast their motor is going.

  • And this is really a real happening.

  • It's an incredible event.

  • And some of the motors are extraordinary in their design.

  • If you and I would try to build a motor,

  • you'll be lucky if your motor rotates 400 revolutions

  • per minute.

  • But let me tell you, some students

  • go through the 5,000 revolutions per minute mark.

  • It's really quite amazing.

  • And they spent so much time on that.

  • It's a wonderful event.

  • it's really a happening.

  • Well, my message to all educators

  • is what counts is not what you cover,

  • but what counts is what you uncover.

  • And this is often forgotten.

  • So there is a general tendency, not

  • everyone, but a general tendency to ram too much

  • down the throats of the students and overlook

  • that that's very anti-productive.

  • Because it goes one ear in, as we say in Holland,

  • and it goes the other ear out again.

  • So what you cover is not what matters.

  • But what you uncover is what matters.

  • And if you can somehow do it so that there

  • are parts of the course that they will remember

  • for the rest of their lives, that's even more important.

  • If a student has come to my lectures

  • on rainbows and halos and glories,

  • for the rest of their lives rainbows

  • will never be the same.

  • And they will always think of me when they see a rainbow.

  • And in fact, sometimes 20 or 30 years after a lecture,

  • they send me still pictures.

  • And they say, Professor Lewin, I saw a rainbow,

  • and I thought of you, and here is a picture.

  • And the interesting thing is, they sometimes

  • send me a picture which is not even a rainbow, which

  • is a glory.

  • But that doesn't matter.

  • What it shows is that I have succeeded

  • in making them love physics, and that's my goal.

  • And that should be the goal of every educator,

  • to make them love physics.

LEWIN: Well, 8.02 is, of course,

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はじめに|8.02 電気と磁性 2002年春号(ウォルター・ルイン) (Introduction | 8.02 Electricity and Magnetism, Spring 2002 (Walter Lewin))

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    trust_i_patience に公開 2021 年 01 月 14 日
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