Timeline for How to correlate the frequency of source to The frequency of particle just between the two medium while transmission and reflection of wave?
Current License: CC BY-SA 4.0
8 events
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Sep 28, 2022 at 18:55 | comment | added | Dheeraj Gujrathi | For my previous question (before discussion of pulse frequency),please consider Wave instead of pulse,won't it affect it's frequency then according to variation in tension as I mentioned? | |
Sep 27, 2022 at 15:22 | comment | added | trula | No, a pulse has no frequency, only if you repeat it the same way for a long time. | |
Sep 27, 2022 at 13:32 | comment | added | Dheeraj Gujrathi | Can't it be said that time required for boundry particle to reach max. Amplitude and come back again at mean position will be it's frequency?(for a pulse) | |
Sep 27, 2022 at 11:19 | comment | added | trula | You do not argue with frequency, just with one puls, Try to argument with the frequency of the boundary particle and how you suppose something could oscillate faster or slower. The picture with your puls gives you no information of frequency | |
Sep 26, 2022 at 23:48 | comment | added | Dheeraj Gujrathi | ,Though I am still Studying Mechanical waves,So I am not pretty sure for General wave properties(applicable for all Waves),what I was trying to say is,When a pulse is created,As soon as Boundry Particle recieves frequency from incident wave,A shock is given Back(reflected wave+incident wave superposition),which cause change in shape of Wave behind boundry at that Interval of time,Shouldn't it Affect the frequency of motion Of boundry particle,As tension force direction on that boundry particle particle is changed(or is different from normal incident wave)? | |
Sep 26, 2022 at 17:05 | comment | added | trula | It is very hard to understand what you try to say. You have an incident wave, whic is caused farther away. this wave brings a particle at the border to oscillate in the frequency of the wave, Now this frequency continues in both media, one part is reflected and added to the incoming wave, one is continuing in the second medium. How should any other frequency happen? What you mean with "tension which acts later I can not understand. do you talk about waves in general or just waves on a string like your picture? | |
Sep 25, 2022 at 21:52 | comment | added | Dheeraj Gujrathi | If I start a pulse Using my hand(rigidly) to give initial particle of the rope a Fixed frequency,Then that point will get the frequency That I would like to give,But in this case,instead of my hand,The end particle of rarer medium(which is not rigid) is giving frequency to denser medium's first particle,Won't it affect frequency as soon as superpositioned wave forms,Because way the tension acts(direction) at later part of time is not similiar to the way it should act for particle in incident wave only?Sorry,As I cannot comprehend properly,Please reply If I need to ask question other way! | |
Sep 25, 2022 at 15:12 | history | answered | trula | CC BY-SA 4.0 |