
Description of Individual Course UnitsCourse Unit Code  Course Unit Title  Type of Course Unit  Year of Study  Semester  Number of ECTS Credits  1001001052008  PHYSICS  Compulsory  1  1  4 
 Level of Course Unit  First Cycle  Objectives of the Course  The aim of this course is to make gain solving ability about natural problems by using physics laws  Name of Lecturer(s)  Prof.Dr.H.Baha BÜYÜKIŞIK  Learning Outcomes  1  To be able to express the data obtained from measurements via graphics and functions  2  To be able to operate with scalar and vectorel quantities  3  Able to recognize motion types and to applicate to fisheries engineering problems  4  To understand the balance of forces  5  Able to solve the natural problems by using dynamics laws  6  . The ability of analysing rotational motions and exemplify angular momentum in closed and open systems  7  . Ability of solving the problems about hydrostatic pressure , buoyancy of immersed body and surface tension in fluid statics  8  achievement of skill on the arrangement of Bernouilli equation to solve fluid dynamics problems 
 Mode of Delivery  Face to Face  Prerequisites and corequisities  None  Recommended Optional Programme Components  None  Course Contents  Mechanics  Weekly Detailed Course Contents  
1  Introduction
Data ,fonctions and Graphics
Principal Concepts ,length ,mass and time
Unit Systems , cgs ,mks ,mkgfs ,SI
Dimension equations
Mathematical operations with units
Meaningful numbers
   2  Scalars and Vectors (addition , difference , resolution and multiplication)    3  Kinematic
average Velocit,instantaneous velocity ,variable velocity , acceleration ,relative velocity one dimensional motion –constant acceleration
Free falling bodies
Projectile motion
Uniform circular motion
Simple Harmonic motion
   4  Static
vector sum of intersecting forces
Rotational equilibrium
Paralel forces
Tween forces
Paralel forces and equilibrium conditions
Center of mass and center of weight
Nonparalel forces in a plain and equilibrium conditions
   5  Dynamic
Newton‘s laws of motion
First law(law of inertia)
Second law (fundemantal equation of classical mecanics)
Third law of motion (action and reaction)
Mass and weight
Atwood’s machine
D’Alambert’s law
Centripetal forces and Centrifugal forces
Friction forces
The law of universal Gravitation(Cavendish Balance)
Variation of g with altitude
Variation of g with Latitude
   6  Work ,Energy ,Consevation of Linear Momentum    7  Angular Motion
Kinetic energy of rotation and rotational inertia
Newton’s laws in angular motion
Conservation of angular momentum
Classification of angular motion according to accelerations
aWhen the Rotational moment and angular momentum are the same direction
bWhen the rotational moment constant and perpendicular to angular momentum
   8  Harmonic motion and penduls
Simple Harmonic Motion
Angular Harmonic Hareket
String pendulum ,Simple pendulum , conical pendulum , Physical pendulum
Torsional pendulum , Energy in harmonical motion
   9  MIDTERM EXAM    10  Harmonic motion and penduls
Simple Harmonic Motion
Angular Harmonic Hareket
String pendulum ,Simple pendulum , conical pendulum , Physical pendulum
Torsional pendulum , Energy in harmonical motion
   11  Fluid Statics
İdeal fluids and real fluids
Free surface of a fluid
Pressure concept
Hydrostatic Pressure
Buoyancy of immersed body
Pascal’s Principle
   12  General properties of gases ,BoyleMariotte’law
Air Pressure
Changes of pressure with altitude
Barometers and manometers
Surface tension forces
Tate’s law
Capillarity
   13  Fluid Dynamics
Equation of Continuity
Bernoulli’s equation and Applications (venturi ,pitot tube )
   14  Viscosity    15  Laminar flow , Turbulent flow , Dynamic lift    16  FINAL EXAM   
 Recommended or Required Reading  Serway,R.A. & Beichner,R.J. Physics for Scientists and engineers with modern physics (Fen ve mühendislik için Fizik 1 ),Saunders College Publishing (©2000) [ Palme Yayıncılık 2002.
Robert Resnick, David Halliday, Physics ,Part 1,Wiley Toppan,1966  Planned Learning Activities and Teaching Methods  Activities are given in detail in the section of "Assessment Methods and Criteria" and "Workload Calculation"  Assessment Methods and Criteria  
Midterm Examination  1  100  SUM  100  
Final Sınavı  1  100  SUM  100  Term (or Year) Learning Activities  40  End Of Term (or Year) Learning Activities  60  SUM  100 
 Language of Instruction  Turkish  Work Placement(s)  None 
 Workload Calculation 

Midterm Examination  1  1  1  Final Examination  1  1  1  Quiz  4  1  4  Attending Lectures  14  2  28  Problem Solving  10  2  20  Report Preparation  1  10  10  Self Study  14  2  28  Individual Study for Mid term Examination  1  15  15  Individual Study for Final Examination  1  15  15  
Contribution of Learning Outcomes to Programme Outcomes  LO1  2    5           LO2  3              LO3   4             LO4  2  2             LO5  4    4   3         LO6       3    4      LO7             3   LO8         4     5  
 * Contribution Level : 1 Very low 2 Low 3 Medium 4 High 5 Very High 



Ege University, Bornova  İzmir / TURKEY • Phone: +90 232 311 10 10 • email: intrec@mail.ege.edu.tr 
