Difference between revisions of "Visual Beats"
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=== Overview === | === Overview === | ||
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| − | This project is inspired by Cymatics, the study of visualizing sound through the representation of physical mediums. The common method to visualize sound in Cymatics is by creating a frequency on a plate that vibrates sand placed on top. The | + | This project is inspired by Cymatics, the study of visualizing sound through the representation of physical mediums. The common method to visualize sound in Cymatics is by creating a frequency on a plate that vibrates a medium (such as sand or water) placed on top. The more in tune a frequency is to the plate, the more complex of a geometric shape (nodal lines) the sand creates. We initially plan on experimenting with an online frequency generator and a metal plate in order to see what how big of amplitudes we can make on the antinodal regions. Once we have found specific frequencies that resonate well with the plate, we hope to mix/record specific tones and develop it into an Arduino based electric xylophone. People will be able to play on the xylophone, creating their own beats that will create resonating geometric patterns in order for them to “see” what physical form their music takes on. |
==== The Team ==== | ==== The Team ==== | ||
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=== Objectives === | === Objectives === | ||
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| − | + | * Finding several resonating frequencies of the plate since stable figures are obtained the best at these frequencies | |
| + | ** Reference: http://scitation.aip.org/docserver/fulltext/aapt/journal/ajp/59/7/1.16793.pdf?expires=1474611683&id=id&accname=2106719&checksum=63E2BD951B5F8AF76A4942AAEC6B3BAD | ||
| + | * Achieving a consistent image will depend on the distribution of sand (or silica grains) spread on the plate since the higher density nodes will be providing the form we seek. | ||
| + | * Having at the least 5 unique sets of diametric and radial node patterns that are playable on the xylophone. | ||
| + | ** The higher the count on both diametric and radial nodes, the better | ||
| + | * At least 3 melody kits (specifically themed notes) the xylophone will be able to play | ||
| + | * During the demo, anyone should be able to play the xylophone and form images on their own (although we will prepare/practice some melodies that do create designs) | ||
| + | |||
=== Challenges === | === Challenges === | ||
Revision as of 17:17, 23 September 2016
Contents
Overview
This project is inspired by Cymatics, the study of visualizing sound through the representation of physical mediums. The common method to visualize sound in Cymatics is by creating a frequency on a plate that vibrates a medium (such as sand or water) placed on top. The more in tune a frequency is to the plate, the more complex of a geometric shape (nodal lines) the sand creates. We initially plan on experimenting with an online frequency generator and a metal plate in order to see what how big of amplitudes we can make on the antinodal regions. Once we have found specific frequencies that resonate well with the plate, we hope to mix/record specific tones and develop it into an Arduino based electric xylophone. People will be able to play on the xylophone, creating their own beats that will create resonating geometric patterns in order for them to “see” what physical form their music takes on.
The Team
- Sudeep Raj
- Han Wang
- Li Gao
Objectives
- Finding several resonating frequencies of the plate since stable figures are obtained the best at these frequencies
- Achieving a consistent image will depend on the distribution of sand (or silica grains) spread on the plate since the higher density nodes will be providing the form we seek.
- Having at the least 5 unique sets of diametric and radial node patterns that are playable on the xylophone.
- The higher the count on both diametric and radial nodes, the better
- At least 3 melody kits (specifically themed notes) the xylophone will be able to play
- During the demo, anyone should be able to play the xylophone and form images on their own (although we will prepare/practice some melodies that do create designs)
Challenges
Most of the hardware we will use can be purchased, but there are still many foreseen challenges we will encounter: • We don’t know what kind of pattern(s) a specific frequency will produce beforehand, so we will have to try a wide range of frequencies • We may try different mediums (sands, water, ferrofluid etc). Using water close to high amplifier may be dangerous, and ferrofluid may get stuck on the platform • Our speaker(s) and amplifier(s) could fail on us mainly if we abuse them during our tests • We may exceed our budget if our trials keep failing, so we need to form detailed plans on how we will run our experiments in order to prevent going over our budget • We must be aware of the environment we perform our project in as some frequencies might have the potential to shatter glass • Coming up with back up plans if our set frequencies do not form the expected shapes • Finding the most effective way to reuse and not waste sand • The high speaker and high amplifier may harm our ears, so the earplug is needed for protection
Budget
- 8 Ohm Sub (250 Watts) (PickPerfect) ~ $19.34++
- .063 Thick Aluminum Sheet (12 x 12) (Amazon) ~ $12.98
- Audio Amp Kit (Amazon) ~ $29.95
- Black Aquarium Sand 20lbs (Petco) ~ $11.39
- 3/4-in Common Birch Plywood (2 x 2 Ft) (Lowe's) ~ $10.80
Owned
- 10k Resistor
- Arduino UNO
- Breadboard
- Solderless Jumper Wires
Est. Total
- ~$90
Gantt Chart
