Basic Information
Basic Topics Revision (basic Equations and Linear Theory). Non-linear Operties of Water Waves. Statistics and Spectral Analysis Of Wind-waves. Expertimental Measurements of Water Waves in The Open Sea, Measurements Using Wave Gauges Array and Pressure Gauges Array. Experiments Will Be Accompanied By Qualitative Observations of Surface Drift and Orbital Motions. Boussinesq and Kdv Equations. Wave-current Interactions. Advanced Measurment Techniques, Differences Between Laboratory and Open Sea Measurements, Remote Sensing, Directional Spread of Waves, Energy, Processing of The Experimental Data, Methods For Obtaining The Directional Spectrum of Waves Energy (frequency/wave Number Spectrum), Conclusions. # Learning Ouctomes# at The End of The Course The Student Will# 1. Acquire Knowlede On Theories and Numerical Solution Methods in The Field of Nonlinear Water Waves. 2. Acquire Knolwlede On Proceses Governing Excitation and Evolutionof Water Waves B The Above Blowing Wind. 3. Acquire Experience in Designing and Operating Experimental Setups,accompained By Data Processing For Obtaining Important Parameters Governing The Nonlinear Wave Fields Evolution Both in The Lab and in The Open Sea. 4. Acquire Knowledge and Experience In Statistical Processing of Experimental Data Including Spectral Analysis, Wave Number Spectra and Directional Distribution of Waves Energy. 5. Develop Analytical, Numerical Annd Experimental Tools Required For Condcting Research in The Field of Nonlinear Waves Interactions, Waves-wind and Waves-current Relations.
Faculty: Civil and Environmental Engineering
|Pre-Academic
Pre-required courses
(14211 - Fluid Mechanics and 234128 - Introduction to Computing With Python) or (14214 - Fundamental Fluid Mechanics and 234112 - Programming )c( and 234127 - Introduction to Computing With Matlab) or (34013 - Fluid Mechanics 1 and 234112 - Programming )c( and 234127 - Introduction to Computing With Matlab)