Understanding Wave Reflection on a Fixed Boundary

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In wave reflection at a fixed boundary, the reflected wave is represented as "-f(-x-vt)" due to the inversion of amplitude and direction. The "-f" indicates the wave's profile is flipped upside down, while "-x" reverses the direction of travel. The term "-vt" ensures that the wave continues to move in the correct direction, maintaining the toe-first motion. Understanding these components clarifies the behavior of waves upon reflection. This explanation effectively addresses the confusion surrounding wave reflection at a fixed boundary.
simon96c
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Hello everyone,
I am currently studying traveling waves and reflection but I didn't understand a part of my last lesson.
If we consider a string with a loose end and the other end attached to a wall we expect the string to have zero displacement at the wall and to have a reflected wave "-f(-x-vt)" (given that the incident wave is f(x-vt) ).
My question is probably really silly, but I can't understand why the reflected wave is "-f(-x-vt)" and not "-f(x+vt)" (travelling in the other direction, with inverted amplitude).

I hope I chose the right section since this is my first post here!
Thanks in advance to anyone who will reply to this (probably) really silly question!
 
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Lets say that the wave has the shape that matches the side profile of a shoe. The -f flips the profile up-side-down. The -x changes the direction the wave is moving. But we still want the wave to move toe first, so the -vt has to stay -vt.

Hope that helps.
 
That helped a lot!
Thank you very much for your reply.
 
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