| 1 | Orientation | |
| 2 | Basic physicstermssuch as length, mass and time standards, dimensionanalysis, unittranslation, meaningfulnumbers, | [1] p. 1-12 |
| 3 | Vectors, vector size, unitvectors, components of a vector, vectorfouroperations and scalarmagnitudeissueswill be covered, | [1] p. 1-12 |
| 4 | Displacement, position, velocity, instantaneousvelocity, averagevelocity, acceleration, suddenacceleration, motion and motiondiagrams in onedimensionwill be examined, | [1] p. 17-36 |
| 5 | Freefallmotion and one-dimensionalconstantaccelerationmovement, one-dimensionalacceleratedmotionissueswill be transferred, | [1] p. 45-56 |
| 6 | Moving in twodimensions, motion in twodimensions, motion in constantacceleration, tiltmotion, circularmotion, relativevelocity and relativeacceleration, | [1] p. 57-66 |
| 7 | Theconcepts of force in physics and Newton'slawswill be examined in detail, | [1] p. 77-82 |
| 8 | MIDTERM | |
| 9 | Newton'slawswill be continued and thefrictionforcewill be discussed, | [1] p. 83-96 |
| 10 | Potential and kineticenergy, businessconcept, workdonebyconstantforce, powerconcept, work-kineticenergytheorem, | [1] p. 154-165 |
| 11 | Momentum, linear momentum, conservation of linear momentum, impulses, collisions and conservation of momentum in collisions. | [1] p. 206-227 |
| 12 | Twodimensions of collisions, flexible and inelasticcollisionswill be covered, | [1] p. 228-240 |
| 13 | Thesubjects of rotation of solidbodies, moments of inertia, paralleltorque, equilibriumconditions of solids, | [1] p. 241-268 |
| 14 | Magnetism, paramagnetism, diamagnetism and ferromagnetismwill be examined. | [1] p. 686-702 |
| 15 | FINAL EXAM | |