Constructing a PVC FluteMeasurements for a side blown G flute made with ¾” diameter PVC pipe 480 PSIMeasurements for a side blown F flute made with ¾” diameter PVC pipe 200 PSIPhysics of Music PHY103 Lab Manual 2011Constructing a PVC FluteEQUIPMENT- PVC pipe The instructions are for ¾’’ diameter PVC 480 PSI or 200 PSI. The thickness of the PVCdepends on the PSI rating.- Corks or dowels that fits into the end of the PVC pipe (#9 corks for ¾”ID pipe 480 PSI, ½” dowel for½”ID pipe). Note 200 PSI PVC requires #10 corks or Diam II Wine Corks 23.5mm diameter which Ipicked up at a home brewing place)- Rulers, in cm- Tools: power hand-drills, drill bits, hacksaws, round and flat files, hammers, center punches, mattknifes- Dremel tools- Mini vices- Protective eyewear- Tuners for measuring frequency - Plumber’s goop for sealing the ends. Or wood filler. Or glue-guns.- Sandpaper- Mirrors, antiseptic mouthwash- Copy of Hopkin’s book out to read.- PVC cutters (we have one)Note: two figures in this chapter are from Bart Hopkin’s book “Musical Instrument design.”Materials: Every student should make their own flute. Warnings: If you share your flute or borrow somebody else’s sanitize itfirst! Use the disinfecting mouthwash or wash the flute in a bathroom sinkbefore you blow into it! Use protective eyewear when you are near operating drills. When you aredrilling make sure that everybodywatching the drill is also wearingprotective eyewear.INTRODUCTIONHere we will build our own PVC pipeflute. PVC looks nasty but I have found that thetone of the flute has a lovely soft bamboo likesound. It is possible to make a beautiful instrumentwith PVC. You can improve its appearance bysanding away the lettering and decorating it. Thechallenge is to make the flute playable, and in pitch.A flute when blown can be considered a vibratingresonant column of air with two open ends. Whenconstructing your flute, you will need to decidewhere to put finger holes. The following equationapproximately describes a relation between lengthand frequency of the fundamental tonef1 L1= f0 L0 (Equation 1)where f0 and f1 are frequencies corresponding to the fundamental tones for pipes of lengths L0 and L1,respectively. Lengths are measured between the mouth-hole and the first open finger hole. It is difficult to predict the notes of a flute. Good flutes have been redesigned many times toachieve accuracy in pitches.Physics of Music PHY103 Lab Manual 2011The above equation is consistent with 002vfL= (Equation 2)predicted for the fundamental mode of a narrow pipe with two open ends where v is the speed of sound. However a real flute is not exactly a narrow cylindrical pipe with two open ends. Consequently Equations1 and 2 are not accurate predictors of tones blown by the flute.The end correction: An end of a cylindrical tube behaves as if it were slightly longer than its length. Abetter approximation to the actual fundamental frequencies of a tube with two open ends can be made withthe following formula. 02evfL=(Equation 3)where v is the speed of sound. Le is the “effective length of the tube. For each end the pipe is effectively about 0.6R longer where R is the radius or 0.3D longer where D is the diameter. For a pipe with two open ends, Le = L + 1.2 R (Equation 4)The above two equations (while an improvement from equation 2) still won’t predict exactly the frequencies of a tube with multiple holes in it. A hole drilled on the side of a pipe changes the effective acoustic length of the pipe. The larger the hole, the closer the acoustic length will be to the hole position. Figure from www.tufts.edu/as/wright_center/physics_2003_wkshp/book/Physics of Music PHY103 Lab Manual 2011A number of things affect the sounding pitch of a note played on a flute. - The closer to the mouth piece the first open hole is, the higher the pitch. See equation 1or 2.- The larger the first open hole, the higher the pitch. See the above figure. - A larger hole in a thicker barrel is similar to a smaller hole in a thinner barrel. The depthof the hole affects the pitch. - Additional open holes below the first open tonehole will raise the pitch. The smaller thefirst open tonehole is, the more it will be affected by the open holes below it.- Closed holes above the first open tonehole can affect the pitch played, however they caneither raise or lower the pitch.The flute can be modeled in terms of a virtual flute with effective lengths for the entire thing andcorrections for the end, the mouth piece and each hole. This is explained in Bart Hopkin’s book `AirColumns and Toneholes’ (that should be in the lab) and refers to J. W. Coltman’s paper `AcousticalAnalysis of the Boehm Flute’, J. Acoust. Soc., 1979, 65, 499-506 (but see the Figure below for the idea).Pitch measurement: Pitches are commonly measured with respect to the frequencies of the temperedscale with a concert A of 440Hz. These frequencies are listed in the table below. Tuners usually give thenearest note on the tempered scale and the difference between this not and the one you played. Thisdifference is given in cents. Cents are defined in the following way: There are 100 cents in each half tone,and twelve half tones in an octave. So there are 1200 cents in an octave. An octave corresponds to afrequency change of a factor of two. In other words a second note that is an octave above a first note hastwice the frequency of the first. Consequently 1 cent corresponds to a factor of 112002. If you are sharp by+21 cents you multiply the frequency of the nearest tempered scale note by 2112002+ to calculate the actualfrequency of your note. If you are flat by 18 cents you would multiply the nearest tempered scale note by afactor of 1812002-.Physics of Music PHY103 Lab Manual 2011PURPOSEThe purpose of this lab is to explore how tone holes affect pitch in a flute. It is quite difficult tomake a flute that is easy to play and that can play notes that are in tune. In this lab you may discover thatthe simple numerical estimates for pitch (that given by the above equations) are not exact. By creating thisinstrument we can perhaps gain respect and admiration for the design and redesign effort that goes intomany musical instruments. On making accurate and