![]() ![]() The equilibrium position, it would also come over hereĪnd compress this spring by 20 centimeters on this side. It would be point two meters, and then, that means, when it shoots through Would be the amplitude, or if you wanted it in meters This mass back 20 centimeters then that means 20 centimeters So it's gonna get displacedĮqually on either side of the equilibrium positionĪnd that maximum amount is called the amplitude. This would also be the amplitude, because we're just talking about the maximum magnitude of displacement. So it's the magnitude of the vector, so it's always positive. And I'm drawing arrows,īut this is not a vector. Makes it this far away, so from here to here. Maximum magnitude of displacement for that oscillator. So we represent theĪmplitude with a capital A, and it's called the amplitude, and it's defined to be the Whatever that distance is here, is called the amplitude. The maximum magnitude of displacement, so this amount right here, That's how you get the thing to oscillate, by displacing it from equilibrium. So the first term you gotta know is that if you displaceĪ mass from equilibrium, and why wouldn't you do that. Terms around like crazy, and if you are not used to them, it all can sound like Harmonic oscillators because people and booksĪnd teachers and professors are gonna throw these There's some terminology you gotta get used to when dealing with simple
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |