nair sinθi - IYPTsolutions.iypt.org/uploads/2012_KR_Bright_waves_Hyung_Ju_Suh... · Water Surface...

airair v

waterwater v

fwateriair nn θθ sinsin =

Change of Surface Curvature!

Unequal Distribution of Light Rays Pattern!

Theory

Water Surface Modeling

Light Flux Density

Refraction

Experiment Conclusion

http://www.google.ca/imgres?imgurl=http://imaginezambia.org/wp-content/uploads/splash-water-waves-4565.jpg&imgrefurl=http://imaginezambia.org/2476/training-workshop-moringa-propogation-teams-quick-update/splash-water-waves-4565/&usg=__ouoxefwUL0whvrDUOOQBnp3NR40=&h=324&w=620&sz=42&hl=ko&start=17&zoom=1&tbnid=zsBhBUfaehuTBM:&tbnh=71&tbnw=136&ei=84LyT9G2NcWjiAfnn_C6Aw&prev=/search%3Fq%3Dwater%2Bwaves%26um%3D1%26hl%3Dko%26tbm%3Disch&um=1&itbs=1

http://www.shutterstock.com/pic-3965908/stock-photo-water-waves.html

Actual Waves Different Phenomenon

Surface of Waves

Patterns of Light

Too Complex! Light Flux

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Image Source Image Source

Different Concentrations of Light Flux!

High Light Flux Density High Intensity Low Light Flux Density Low Intensity

Focal Length

Brightest Point

Snell’s Law

2211 sinsin θθ nn =

Refraction Flux Density Bright Waves Patterns

)(xfy =

Surface Wave Function

`)(cos(sin())cos(sin( 21 lnlnan

lnlnan

⋅−=

`ll =)1,( −∂∂

xlldx x

Snell’s Law

Normalization

'1xScreen hy −=

'1x '2x

'x')( xxh =

Displacement

)(' xhVelocity

Amplitude: 7

Amplitude: 9 Amplitude: 13

Amplitude: 11

Amplitude and Curvature

rFocal Length Decrease

Theory

Light Flux Density

Refraction

Analytical Prediction

Numerical Simulation

Lens Approximation

Experiment

Acrylic Wave

Syringe Pump

6.8 7.8 8.8 9.8 10.8 11.8 12.8 13.8

Velocity of Final Light (cm/s)

Distance in Incident Light(cm)

Velocity of Final Light

Experiment in Water

Screen

Slanted Sponge

Mechanical Oscillator

Slanted Mirror

Experiment Setting

Spherical light source

(point source)

Wave Generator (Horizontal Push)

Surface Wave: Amplitude 3.2mm, Wavelength 42.9mm (Incoherent)

5.92cm 5.85cm

5.25cm 5.29cm

4.97cm 5.02cm

3 3.2 3.4 3.6 3.8 4

Amplitude vs. Pattern Width

Theory

Experiment

Theory

Light Flux Density

Refraction

Lens Approximation

Acrylic Wave – Laser Experiment

Water Waves and Patterns

Bright Wave Pattern Predicted

Relationship between Amplitude & Focal Length

Actual Waves…?

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http://www.shutterstock.com/pic-3965908/stock-photo-water-waves.html

Actual Waves Different Phenomenon

Lip Shape

Interference

Focal Length Decrease

Amplitude Increase

),( yxfhz +=

)1,,( −∂∂

∂∂

`)(sin()sin( 21 lnlnn

⋅−=

),(,``

),((),( yz

yxfzll

yxfzyx ++=

Snell’s Law

Normalization

Same Plane Condition

Lip Shape!

Depth Increase

Theory

Light Flux Density

Refraction

Lens Approximation

Theory

Light Flux Density

Refraction

Lens Approximation

Bright Wave Pattern Predicted

Relationship between Amplitude & Focal Length

Actual Waves Interference

Lip-Shape

),( txz ζ=

)21( 2

tugzqp∂∂

+++ ρ

Bernoulli Equation for Unsteady Potential Flow )sin(0 tkxka ω

ωζ −−=

d<<<< λζ

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