fiveworlds Posted August 17, 2014 Posted August 17, 2014 How do I calculate the resonant frequency of a structure?
studiot Posted August 17, 2014 Posted August 17, 2014 That's a big question that needs a heap more information to begin to answer.
fiveworlds Posted August 17, 2014 Author Posted August 17, 2014 http://m.youtube.com/watch?v=j-zczJXSxnw
Enthalpy Posted August 17, 2014 Posted August 17, 2014 Sorry, YouTube consumes too much bandwidth. How is your structure? A truss with few beams, a simple shape? A few cases can be computed by hand, but often it's impossible or just too heavy, so people normally seek a software for that.
studiot Posted August 17, 2014 Posted August 17, 2014 Wind induced vibrations are often non resonant, for example the sound of singing in telephone wires is nowhere near the resonant frequency of the wires. This is a big subject and quite interesting but, You really do need to ask a proper question to get a proper answer.
fiveworlds Posted August 17, 2014 Author Posted August 17, 2014 (edited) Sorry, YouTube consumes too much bandwidth. http://r3---sn-35153iuxa-5a5e.googlevideo.com/videoplayback?source=youtube&mm=31&expire=1408337787&sver=3&mt=1408316150&itag=18&initcwndbps=1790000&id=o-AAtFS-lfeMnQjXGpYUBfRL279DdD-htnz2Zon_PXfBEM&upn=bhS1_ugCejU&signature=27D750A6E0307FCD3023C1699C9D57569C22F0C3.88427B75CD277707C5428371D98C666CA37D8059&sparams=id%2Cinitcwndbps%2Cip%2Cipbits%2Citag%2Cratebypass%2Csource%2Cupn%2Cexpire&fexp=900225%2C902408%2C908570%2C916633%2C919120%2C927622%2C929203%2C931983%2C934024%2C934030%2C936109%2C945122%2C945544%2C946023&mws=yes&ipbits=0&ratebypass=yes&ip=89.218.47.226&key=yt5&ms=au&mv=m&title=Tacoma+Narrows+Bridge+Collapse+%27Gallopin%27+Gertie%27 Edited August 17, 2014 by fiveworlds
fiveworlds Posted August 17, 2014 Author Posted August 17, 2014 (edited) Wind induced vibrations are often non resonant http://en.wikipedia.org/wiki/Nuclear_magnetic_resonance we shorten it to just resonance the sound of singing in telephone wires is nowhere near the resonant frequency of the wires. Temperature can change the resonant frequency of the nuclei also the tension the nuclei are under. http://hyperphysics.phy-astr.gsu.edu/hbase/waves/string.html Edited August 17, 2014 by fiveworlds
studiot Posted August 17, 2014 Posted August 17, 2014 http://en.wikipedia.org/wiki/Nuclear_magnetic_resonance we shorten it to just resonance Temperature can change the resonant frequency of the nuclei also the tension the nuclei are under. http://hyperphysics.phy-astr.gsu.edu/hbase/waves/string.html What does any of this have to do with your question?
fiveworlds Posted August 17, 2014 Author Posted August 17, 2014 What does any of this have to do with your question? I learned the basics I want to know how to calculate the resonant frequency of a large structure. All I learned was small scale.
studiot Posted August 17, 2014 Posted August 17, 2014 This is the fifth time I have asked you provide some details of what you are asking. Otherwise you might as well ask "How do I do Structural Analysis?" Do you actually know what resonance means and why I said that wind induced oscillations are not usually resonant?
fiveworlds Posted August 17, 2014 Author Posted August 17, 2014 (edited) http://video.mit.edu/watch/tuning-forks-resonance-a-beat-frequency-11447/ http://www.math.harvard.edu/archive/21b_fall_03/tacoma/index.html I found some wrong methods http://www.strand7.com/html/naturalfrequency.htm http://peer.berkeley.edu/education/files/worksheets_friendship/Natural%20Frequency%20Worksheet.pdf but none I think are right. Do you know why wind induced oscillations are resonant? Imagine I have a string. It is resonant 100% of the time. Now when the wind causes the string to oscillate it causes the tension on the string to fluctuate within some level of tolerance say +-1 Newton. By changing the tension on the string I have also changed the fundamental frequency of that same string and it resonates between that range of values. There are things I don't think are right though assume I have 52Fe and 52Cu http://upload.wikimedia.org/math/7/3/c/73cb6f0121da6b745df4141181907357.png says that they should have an identical resonant frequency since they have the same mass however we know they are not the same. Edited August 18, 2014 by fiveworlds -1
Enthalpy Posted August 18, 2014 Posted August 18, 2014 This thread looks like a way to waste our time.
studiot Posted August 18, 2014 Posted August 18, 2014 (edited) I am not sure where you are coming from here since you ask specifically about large structures, then want to discuss individual atoms? I will address these separately. Looking back I realise that I have not been very clear. Studiot Wind induced vibrations are often non resonant, for example the sound of singing in telephone wires is nowhere near the resonant frequency of the wires. The sound you hear is in the air not the wires! Resonance is about the transfer of periodic energy from one system to another and can occur when the control of this transfer is by the driving system. However resonance only happens when the driving system frequency exactly matches the natural frequency (or a whole number multiple) of the driven system. At this time there is maximum amplitude or velocity of vibration. Control can be by the driving (also called forcing) system or by the driven system. When control is exerted by the driven system we call the oscillation a relaxation oscillation. If the telephone wire was twanged like a musical instrument string it would vibrate at its natural frequency according to Rayleigh’s equation, or the simplified harmonic version may suffice. The frequency is governed by the wire. http://en.wikipedia.org/wiki/Rayleigh%E2%80%93Plesset_equation But this is not the mechanism by which vibration is generated when a steady wind passes over a wire. This occurs by vortex shedding and the frequency of this is controlled by the fluid mechanics of the wind. http://en.wikipedia.org/wiki/Vortex_shedding#Governing_equation The strouhal function has wiggle in its graph that sets the frequency of what you hear. http://en.wikipedia.org/wiki/Strouhal_number The frequency of vibration is set by the driving system (the speed of the wind). For most frequencies this does not match the natural frequency of vibration of the wires so resonance does not occur, although the wires still vibrate. In the odd case where it does large amplitude oscillations can occur and rip the wires out. Note that Wiki gives the impression that all periodic transfers of energy are resonant. They are not. A simple basic test is to ask what happens if the drive is removed. If the driven system reverts to its own natural frequency then the drive was not resonant If the driven system carries on as if nothing had stopped (except for any slow decay of the oscillation) then the transfer is resonaant. With regard to your comments on micro systems look here http://www.damtp.cam.ac.uk/user/gold/pdfs/quantray.pdf Edited August 18, 2014 by studiot 1
studiot Posted August 19, 2014 Posted August 19, 2014 fiveworlds Do I take it you have no further interest in this subject, but can't be bothered to tell me?
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