English: Made by myself. I melted a borosilicate capillary tube with a blowtorch into the shape (a en:cantileverbeam) seen, clamped it in a micrometer (that's what micrometers are for, yes?), and photographed it vibrating. Flash photo + 1/8 second exposure to show vibration and a frozen moment in one picture.
A micrometer was used because it has carbide faces which are four times stiffer than glass (and twice stiffer than steel), makes for an excellent cantilever beam mount. Though I've had problems with poorly clamped beams, this probably makes no difference but it makes me sound smarter.
وضع -Ben pcc في ويكيبيديا الإنجليزية-، وهو المؤلف، هذا العمل في النِّطاق العامِّ. يسري ذلك في كل أرجاء العالم. في بعض البلدان، قد يكون هذا التَّرخيص غيرَ مُمكنٍ قانونيَّاً، في هذه الحالة: يمنح Ben pcc الجميع حق استخدام هذا العمل لأي غرض دون أي شرط ما لم يفرض القانون شروطًا إضافية.Public domainPublic domainfalsefalse
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2007-09-13 17:40 Ben pcc 1280×852×8 (104042 bytes) == Summary == Made by self. I melted a borosilicate capillary tube with a blowtorch into the shape (a [[cantilever]] [[Beam theory|beam]]) seen, clamped it in a micrometer (that's what micrometers are for, yes?), and photographed it vibrating. Flash photo
2007-06-16 04:02 Ben pcc 1600×1200×8 (199228 bytes)
2007-06-16 04:00 Ben pcc 1600×1200×8 (144230 bytes)
2007-06-16 00:19 Ben pcc 1280×960×8 (137764 bytes) Made by self. I melted a borosilicate capillary tube with a blowtorch into the shape seen, clamped it in a micrometer (that's what micrometers are for, yes?), and photographed it vibrating. Flash photo + 1/4 second exposure to show vibration and a frozen
{{Information |Description={{en|Made by myself. I melted a borosilicate capillary tube with a blowtorch into the shape (a en:cantileverbeam) seen, clamped it in a micrometer (that's what micrometers are for, yes?), and photograph