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PHYSICS II COURSE IDENTIFICATION AND APPLICATION INFORMATION

Code Name of the Course Unit Semester In-Class Hours (T+P) Credit ECTS Credit
GMY124 PHYSICS II 2 4 4 6

WEEKLY COURSE CONTENTS AND STUDY MATERIALS FOR PRELIMINARY & FURTHER STUDY

Week Preparatory Topics(Subjects) Method
1 Reading the relevant chapter in the coursebook Course Description Fluid Dynamics (a) Specific gravity and density Lecture Question - Answer
2 Reading the relevant chapter in the coursebook Fluid Dynamics (b) Viscosity, fluid resistance, laminar or aerodynamic flow effects; Compressibility effects in fluids; Static, dynamic and total pressure: Bernoulli's Theorem, venturi Lecture Question - Answer
3 Reading the relevant chapter in the coursebook Fluid Dynamics (b) Viscosity, fluid resistance, laminar or aerodynamic flow effects; Compressibility effects in fluids; Static, dynamic and total pressure: Bernoulli's Theorem, venturi Lecture Question - Answer
4 Reading the relevant chapter in the coursebook Fluid Dynamics (b) Viscosity, fluid resistance, laminar or aerodynamic flow effects; Compressibility effects in fluids; Static, dynamic and total pressure: Bernoulli's Theorem, venturi Lecture Question - Answer
5 Reading the relevant chapter in the coursebook Thermodynamics (a) Temperature: Thermometers and temperature scales: Celsius, Fahrenheit and Kelvin; Heat definition; Lecture Question - Answer
6 Reading the relevant chapter in the coursebook (b) Heat capacity, specific heat; Heat transfer: Convection, radiation and conduction/heat transmission; Volumetric/Vocular expansion; First and second law of thermodynamics; gases; Ideal gas laws; work with specific heat, gas expansion at constant volume and constant pressure; Isothermal, adiabatic/insulating expansion and compression, engine speeds, constant volume and constant pressure, chillers and heat pumps; Latent heat of melting and evaporation, thermal energy, heat of combustion. Lecture Question - Answer
7 Reading the relevant chapter in the coursebook (b) Heat capacity, specific heat; Heat transfer: Convection, radiation and conduction/heat transmission; Volumetric/Vocular expansion; First and second law of thermodynamics; gases; Ideal gas laws; work with specific heat, gas expansion at constant volume and constant pressure; Isothermal, adiabatic/insulating expansion and compression, engine speeds, constant volume and constant pressure, chillers and heat pumps; Latent heat of melting and evaporation, thermal energy, heat of combustion. Lecture Question - Answer
8 - MID-TERM EXAM -
9 Literature Review Reading the relevant chapter in the coursebook Optics (Light Science) Nature of light; speed of light; Laws of reflection and refraction: Reflection on flat surfaces, reflection through spherical mirrors, refraction, lenses; fiber optics. Lecture Question - Answer
10 Literature Review Reading the relevant chapter in the coursebook Optics (Light Science) Nature of light; speed of light; Laws of reflection and refraction: Reflection on flat surfaces, reflection through spherical mirrors, refraction, lenses; fiber optics. Lecture Question - Answer
11 Reading the relevant chapter in the coursebook Wave Motion and Sound Wave motion: Mechanical waves, sinusoidal wave motion, interference phenomenon, standing waves; Sound: Speed of sound, sound reproduction, intensity, pitch and quality, Doppler effect Lecture Question – Answer Case Study
12 Reading the relevant chapter in the coursebook Wave Motion and Sound Wave motion: Mechanical waves, sinusoidal wave motion, interference phenomenon, standing waves; Sound: Speed of sound, sound reproduction, intensity, pitch and quality, Doppler effect Lecture Question – Answer Group Work Practice
13 Reading the relevant chapter in the coursebook Wave Motion and Sound Wave motion: Mechanical waves, sinusoidal wave motion, interference phenomenon, standing waves; Sound: Speed of sound, sound reproduction, intensity, pitch and quality, Doppler effect Lecture Question – Answer Group Work Practice
14 Reading the relevant chapter in the coursebook Wave Motion and Sound Wave motion: Mechanical waves, sinusoidal wave motion, interference phenomenon, standing waves; Sound: Speed of sound, sound reproduction, intensity, pitch and quality, Doppler effect Lecture Question – Answer Group Work Practice
15 General Revision Preparation for Final Exam Lecture, Question – Answer, Discussion
16 - FINAL EXAM -
17 - FINAL EXAM -