Correlation between Music and Mechanical Engineering

CORRELATION BETWEEN MUSIC AND MECHANICAL ENGINEERING 1

Correlationbetween Music and Mechanical Engineering

Near the endof his sophomore year, one mechanical engineering student MauriceChristopher was feeling stretched and stressed over the workload on adual major in an Accelerated Graduate Program he had undertaken. Hehad expected the academic workload to be straining, but he wasbothered by something else. He was frustrated due to only using theanalytical side of his brain and had no actual creative release.

Since his second grade, he had completed it and had done well,especially as an Irish dancer. He had also hoped to find a creativeout at the University and part of correlating it with a major inmechanical engineering. The paper, therefore, is a correlationbetween music and mechanical engineering, while using musicterminology as a guide. The paper will also answer the question: howcan one compare and thus view mechanical engineering as music? Andhow can one consider music as being the same as mechanicalengineering?

Correlationand Comparison between Music and Mechanical Engineering

From the richcomplexities of the Bach fugues to some of the catchy Beatles` hymnsand songs, Burgess (2013) noted that music and mechanical engineeringoverlap in all ways of interesting ways. And beyond the basic uses ofmechanical engineering in music theories and notations, for example,time signatures, chords, or dotted half-notes, which include thecount of three, the use of music has continued to be the source ofresearch. The research covered a number of areas of mechanicalengineering, for example, acoustics and noise control, robotics, andnanotechnology. Would you believe that research studies have shownthat particular pieces of music have to end up being mainstream andpopular due to their ‘robotics` structure?

Music plays animportant role in every culture, which in turn contributessubstantially to live. Mechanical engineering strongly influencesmusic since the first music instruments were created (Burgess, 2013).The correlation between the two comes with the power and potentialrelationship, which is exemplified by the innovations inspired byboth fields. Over the past decade, the revolution continues toemphasize on the aggregation of digital music with mechanicalengineering.

Correlation alsoexists when it comes to music composers. Advances in mechanicalengineering continue to transform the creative palettes available tomusic composers. There are sounds that cannot be generated usingphysical music instruments, but electronically through mechanicalengineering, modern computers have enough processing power to handlecomplex synthesis and audio transformations.

The mathematics inmechanical engineering, according to Burgess (2013), is said to reachto the masses due to its repetitive structure, which is a trend veryapparent and evident in music today. Today, there is no doubt thatthe popularity of music with its looping breaks and rhythmic beats,which is specific because of individual engineering, needs forpattern and rhythm.

Jason Brown, theprofessor of engineering in one of the universities in the UnitedStates, used a mechanical tool called, &quotVibration Isolator&quotto analyze and solve one problem that turn out to be a mystery towhat makes up the Beatles` song (Burgess, 2013). The tool was used todetermine notes and instruments to what makes up the song`s wildopening chord. The correlation is then drawn from the field ofcognitive research.

The mind and bodycorrelation between music and mechanical engineering is fueled by thecontinuing debate about the &quotMozart effect,&quot which is alsoin mathematics. The effect was popularized in the late 1990s anduntil now, some studies and test subjects all perform in aspatial-temporal task, for example, visualizing a boat in anindividual`s mind, while building it with some pieces, which followsexposure to &quotMozart sonata.&quot

Using musicterminologies as a guide, mechanical engineering and music both dealswith harmonics and vibration. As for music, it deals with themembranes, vibration of strings, and vocal cords to come up withcombined notes and chords in music. On the other hand, Burgess (2013)observed that harmonics and vibration occur naturally from themovement of the earth and other natural forces. MechanicalEngineering is also involved in prototyping, mechanical devices, andthe design of simplistic components. It is also involved in theexperimentation of simple things, but with different designs. Music,apart from the vocal chords and sound, is also more of music featuresand art.

Mechanicalengineering students, for example, could use the art from music tosketch a lot of things and better understand how to come up withdrawings and to convey ideas. By combining music and mechanicalengineering skills, one not only plans how a product operates butalso how it will operate to come up with a pleasing device.Correlation often stands out when working on a sculpture, forexample, where one has to dose things that have to be erected ontheir own without the wires.

Music isinherently the same as a major in mechanical engineering because ofthe basics involved with the later. These basics are mathematics,which help understand specific parts of music theory. Fourieranalysis in mathematics, which also forms a part of mechanicalengineering, can assist with a better understanding of overtones(Burgess, 2013). It is easier to understand beats phenomenon anddifferences in tone, mechanically. Mechanical engineering helps withthe counting of note durations, the number of times the beats arecounted, and a better understanding of fractions. Mathematicalapplication of mechanical engineering compares with music for abetter understanding of modular arithmetic and circle of fifths.

To understand howmusical instruments work, one has to understand the mechanics behindit. Some music sounds like Rock is inspired by the mechanics of theguitar and piano. Some composers, according to Burgess (2013), haveexplicitly used engineering ideas, while a few modern composers aretrying to embed some mechanical objects into their musical works.More so, change-ringers have also tried explicitly to play everysingle permutation of rhythm and notes with more restrictions.

There are a lotmore disciplines that use more mechanics than what music does, forexample, mathematics. However, the musical pieces that were writtenusing ideas from mechanics and the technology behind it areconsidered less popular than those pieces created by composers withlimited understanding of mechanical engineering. One does not need tobe aware of timetables to be in a position to play music.

By comparison,mechanics and mathematics are close-related. If one wants tounderstand better one clearly, it is more reasonable to take a fewcourses on the later, for example, mathematics and computer science.Different types of engineering and preferably mechanical engineeringare related to a few mathematical topics. Mechanical engineeringmajor is far much better at explaining the mechanics behind thechoice of musical instruments and sound (Burgess, 2013). To anartist, differences between a good and bad performance are based on abrilliant choice of instruments to play a particular song.

Consequently,mechanical engineering and music draw more similarities than peopleever realized. One has an idea, and that idea is an inspiration initself. Once a person has an idea, he or she has to confirm if it isgood or not. The person has to ask how to create it and how to comeup with a finished product. The comparison came about when peoplekeep humming things, especially the engineering students wheninspiration hits them, and they connect with the topics they havelearned.

Music is inherently the same as a major in mechanical engineering,especially when it comes to mechanics and music vibration. The musicvibrations in the mechanics class involve research on the dynamics,nonlinear vibrations, applications, and music acoustics. During musiccomposition, heat transfer is considered. Heat transfer is one of thetopics in mechanical engineering, which according to Burgess (2013),addresses the transfer of energy because of the conduction,radiation, and convection impacts. Heat transfer explains the speedof sound in music recording equipment while it also measures thermalphenomena simulation.

In conclusion,comparison and correlation between music and mechanical engineeringhave long been an issue of fascination. From the 20th-centuryserialist composers, who relied on the combination of mechanics tocompositional choices, to the ancient Greeks, who regard music to bepurely engineering, have undergone countless attempts to define andderive a formal relationship between the two. Burgess (2013) observedthat research that uses mechanics for analysis to better understandmusic incorporates mechanical representations into live performances`visualization.

References

Burgess, R. J. (2013). The art of music production: The theory andpractice. New York, NY: Springer.