Escola Americana do Rio de Janeiro, March 6th, 2013. Web design - Whisang Chu
Group 4 IB project (Non-Newtonian Fluids)
  • Home
    • Table of Contents
    • Introduction>
      • Waves and Acoustic Wave Mechanics
      • 1-Dimensional Wave Equation
      • Fluid and Continuum Mechanics
  • Experiments
    • 30 Hertz
    • 40 Hertz
    • 50 Hertz
    • 60 Hertz
    • 70 Hertz
    • 80 Hertz
    • 90 Hertz
    • 100 Hertz
    • 110 Hertz
    • 120 Hertz
    • 130 Hertz
    • 140 Hertz
    • 150 Hertz
  • Credits

IB Group 4 project may 2013 session
Group members: ANDRÉ BUCSAN, BERNARDO GOUVEIA, DARIEN KEYACK, KARL BASTOS, KEVIN WANG, LAVY CHVAICER, THIAGO OLABARRIAGA, UGO LECERF, WHISANG CHU

Project on Non-Newtonian fluids. Testing Sine waves and Square waves.

PREVIEW

QUALITATIVE AND QUANTITATIVE BACKGROUND INFORMATION ON WAVES AND ACOUSTIC WAVE MECHANICS. WHAT IS A SOUND WAVE? Explains square waves, interference, diffractioN, RELATIONSHIP BETWEEN WAVE SPEED, WAVELENGTH, AND FREQUENCY, AND MORE!

Research done by Kevin Wang Ji
Waves and Acoustic Wave Mechanics

Introducing the 1-dimensional wave equation. its derivation by considering a string acting as a standing wave. 

Research done by Thiago Olabarriaga Lopes
1-dimensional Wave equation

Introducingthe subject of fluid mechanics and continuum mechanics. Defining terms such as rate of flow, viscosity, porosity, pressure, etc. Also explaining What differentiates a Newtonian fluid from a Non-Newtonian fluid .

Research done by André Maurice Bucsan
Fluid and Continuum Mechanics

SINe WAVES PICTURES (30-150 HZ) IN ORDER FROM LEFT TO RIGHT

SQUARE WAVES PICTURES (30-150 HZ) IN ORDER FROM LEFT TO RIGHT

Lab trials carried out by: Bernardo Gouveia, Darien Keyack, Karl Bastos, Lavy Chvaicer, Ugo Lecerf
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