Resources
Let's hear Thales' Theorem
Students use iMuSciCA to divide a string length (or membranophone area) in equal parts keeping tension (and radius in case of string) in constant value and then listen to its different corresponding lengths (or areas). Students perform a composition based on segment divisions and reconstruct their models to achieve same results by altering tension. PLEASE CLICK ON THE LINK BELOW
Let's play Sectio Canonis v1
Students take the division of the string using the intercept theorem by the Let’s Hear Thales’ theorem” scenario and start investigating synergies of consonances and dissonances derived by the triangles produced in each section. Students experiment with their own similar triangles by composing their sequences of tones derived from their sides and eventually by constructing the virtual instruments to play them. This scenario introduces an extension using areas also instead of strings. For this reason teacher introduces “round” and not exact numbers.
Let's play Sectio Canonis v1
"Let's play Sectio Canonis" is an iMuSciCA scenario.
Students take the division of the string using the intercept theorem by the Let’s Hear Thales’ theorem” scenario and start investigating synergies of consonances and dissonances derived by the triangles produced in each section.
Let's play Sectio Canonis v2
Let's play Sectio Canonis is an iMuSciCA scenario.
In the scenario “Let's Play sectio canonis v2” students develop a segment division in 2, 3, 4, 5, and 6 equal parts.
They investigate the properties of each part along with the triangles produced.
Let’s hear Thales’ theorem
Students use iMuSciCA to divide a string length (or membranophone area) in equal parts keeping tension (and radius in case of string) in constant value and then listen to its different corresponding lengths (or areas). Students perform a composition based on segment divisions and reconstruct their models to achieve same results by altering tension.
Let’s play Sectio Canonis v2
In the scenario “Let's Play sectio canonis v2” students develop a segment division in 2, 3, 4, 5, and 6 equal parts.
They investigate the properties of each part along with the triangles produced. They continue measuring further divisions and they write down their conclusions. At the end, students explore the larger sides of the triangles and their properties forming a minor chord. The ideal teaching requirements for this scenario is to be implemented by a Music teacher and a Physics or Mathematics teacher.
Listen to your Math
Students will investigate mathematical functions and will create a soundscape using the iMuSciCA sonification tools. The soundscape will be able to be played in virtual instruments of their own design
Make your own string Instrument
iMuSciCA Scenario about research concerning the parameters which influence the pitch on a string. Assignment: “Make your own string instrument”: choose the right parameters to make each string ready to produce the correct tone.
MINTEC 2023 Seismology
Seismology
How to determine an epicenter - Sonification of seismological waves
Alexandra Moshou & Petros Stergiopoulos
Computer Room
How to determine an epicenter
1. https://seismolab.gein.noa.gr/data-search/
2. https://seismolab.gein.noa.gr/snac-automatic-alerts-30d/
Sonification of seismological waves
Mission To Mars (EA Theatrical Play 2026)
MUSIC and STEM - Multiple sides of the same coin
Sonifying Thales' Theorem
Natural Tones and Standing Waves
iMuSciCA Scenario about the natural ‘eigen’ frequencies of instruments
Open Book of Educational Innovation (European Schoolnet)

OSON ZEIS FAINOU in PPT
This is a powerpoint presenting the rhythmical steps of the song "OSON ZEIS FAINOU" ("WHILE YOU LIVE SHINE") following the syllables of the lyrics.
FULL VIDEO at http://connect.ea.gr/seikilos/output/SEIKILOS+B+%5B%CE%A0%CF%81%CE%BF%CF%83%CE%B1%CF%81%CE%BC%CE%BF%CE%B3%CE%AE%5D.flv