![]() ![]() Keep in mind – Our Custom Hz Tuning Forks are specially made to order, so please allow at least 5-8 weeks for production and delivery.įinally, if you don’t see the tuning forks you want listed anywhere on our site, please contact us by email, or by phone 57.Ĭall or email for special orders and requests. With proper care, they will last a life-time. Frequency accuracy is guaranteed to with +/. SWB 256 Tuning Forks are non-magnetic, non-rusting, and non-corroding. Our pre-configured sets and scales are available at a discount HERE.Īll SWB256 Tuning Forks, made and shipped from the USA, are manufactured from a patented aluminum alloy specifically formulated for production of tuning forks. To create your own set of 8 unweighted custom Hz tuning forks at a nice discount, click HERE. ![]() Group E: 30 Hz to 80 Hz Weighted - $62.00 Group D: 81 Hz to 256 Hz Weighted - $51.74 Group B: 100 Hz to 255 Hz Unweighted - $49.75 Tuning Forks produced to your specifications! Do you need a specific frequency for your physics test, your healing session, or sound experiment? We offer these Tuning Forks, produced to your specs, up to 2 decimal places. Thus, the inscribed number is actually twice the frequency of the tuning fork.Custom Hz Tuning Forks are available in five different Frequency Groups from 30 Hz to 6000 Hz You will notice that the frequencies have the units of vs (vibrations/sec) and the number indicates the number of vibrations from the equilibrium point rather than our present day reckoning of frequency, which is cycles/second (cps). It is for this reason that the tuning forks which bear his stamp are so universally sought, and, when secured, are so highly prized." Zahm (McClurg & Co., Chicago, 1892): "The making of a perfect instrument-especially if that instrument be a tuning fork or a wave siren-is for Dr. It appears that they were quite valued even when new as is evidenced by this quote from Sound and Music, by J.A. Needless to say, these tuning forks are priceless antiques and should be treated as such. in Paris (owned by Koenig's father-in-law). Rudolph Koenig (they're inscribed with his initials) and sold by Marloye & Co. To a first approximation, a tuning fork’s frequency is determined by its mass, stiffness, and shape, which are fixed. Most of ours are not aluminum and were made in the 1850's by Dr. Modern tuning forks are typically some hard aluminum alloy. This requires a special metal alloy (ordinary steel won't work, for example). A good tuning fork will "ring" for a couple of minutes. The resonant case was added subsequently by a French instrument-maker, Marloye. The tuning fork was invented by John Shore, a trumpeter in the service of George I of England, in 1711, nearly three hundred years ago. ![]() In England the notes were named after the first letters of the alphabet. In Italy do was substituted in place of ut, because it was easier to pronounce in singing. The seventh syllable, si, was added in 1684 by Lemaire. They are the beginnings of words which occur in a hymn to Saint John the Baptist, and are as follows: ut, re, mi, fa, sol, la. Being made in France, these tuning forks have the French inscriptions the first six notes bear the names given by the monk Guy of Aresso in 1026. The Equal Tempered Chromatic Scale has A 3=440 which makes C 3=261.63 The notes of the scale are variously designated in different countries. * These notes are based on the Scientific or Diatonic Scale in which C 3=256, thus making computations simple. Tonic 1st overtone of our fundamental frequency one of these forks is tunable The following table lists the various frequencies that we have available with comments. The simultaneous receding and approaching (via a blackboard reflection) tones of the tuning fork interfere and produce beats (from the students' frame of reference). Alternatively, beats may be produced by walking briskly away from the class towards the blackboard with tuning fork in hand. One of the 256 Hz tuning forks is also adjustable in frequency so that beats may by heard when it is sounded simultaneously with a regular 256 Hz fork. Additionally, a frequency analyzer shows a single frequency component (however, if the gain is turned up high, you may also see the frequency components due to the resonances of the sound box or harmonics of the tuning fork if it was whacked too hard). A microphone/preamp/scope setup may be used to visually demonstrate the pure sinusoidal sound wave. Selection of mounted tuning forks and rubber hammer.Įach tuning fork is mounted on a wooden sound box to amplify the sound (they're very difficult to hear without the box). ![]()
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