| Learning Outcomes |
PO |
MME |
| The students who succeeded in this course: |
|
|
| LO-1 |
Be able to apply the concepts of scalars and vectors in problem solving. |
PO-7 Making research, the ability to use information resources,
|
Examination
|
| LO-2 |
Be able to solve problems dealing with force and motion. Be able to do experiments dealing with linear motion, freely falling objects, and projectile motion and to explain the results of experiments. |
PO-1 In mathematics, science and engineering fields related to environmental engineering to have these fields in use for the solution of theoretical and practical knowledge of engineering,
|
Examination
|
| LO-3 |
Be able to solve problems involving the concepts of energy, work, and power. Be able to do experiments dealing with Newton’s Law, forces of friction, and friction constant of surfaces to explain the results of experiments. |
PO-1 In mathematics, science and engineering fields related to environmental engineering to have these fields in use for the solution of theoretical and practical knowledge of engineering,
|
Examination
|
| LO-4 |
Be able to solve problems dealing with rotational motion. Be able to understand rolling motion and be able to solve problems. Be able to solve problems dealing with mechanical properties of matter. |
PO-1 In mathematics, science and engineering fields related to environmental engineering to have these fields in use for the solution of theoretical and practical knowledge of engineering,
|
Examination
|
| LO-5 |
can explain the basic concepts of measurement and evaluation. |
PO-1 In mathematics, science and engineering fields related to environmental engineering to have these fields in use for the solution of theoretical and practical knowledge of engineering,
PO-7 Making research, the ability to use information resources,
PO-8 National and international level, and refresh ability to follow developments in science and technology.
|
Examination
|
PO: Programme Outcomes
MME:Method of measurement & Evaluation |
| Course Contents |
| Unit and the methods of measurement, Motion in one dimension, Vectors, Motion in two dimension, Laws of motion, Circular motion, Work and energy, Conservation of Energy and Potential Energy, Lineer momentum and collision, Rotational Motion, Rolling Motion, |
| Weekly Course Content |
| Week |
Subject |
Learning Activities and Teaching Methods |
| 1 |
Unit and measurement methods |
Explanation, solving problems, answer and question |
| 2 |
Displacement, speed, motion diagrams |
Explanation, solving problems, answer and question |
| 3 |
Coordinate systems, vector and scalar quantities, some properties of vectors, components of a vector and unit vectors |
Explanation, solving problems, answer and question |
| 4 |
Projectile motion in one-dimensional, projectile motion in two dimensions, general specifications of related to projectile, uniform circular motion, tangential and radial acceleration, relative velocity and acceleration |
Explanation, solving problems, answer and question |
| 5 |
Newton's first law and inertial frames, Newton's second law, mass, weight and gravity force, some properties of newton's laws, friction force, inertia force, elevator samples |
Explanation, solving problems, answer and question |
| 6 |
To implement of Newton's second law to uniform circular motion , movement in resistant environments |
Explanation, solving problems, answer and question |
| 7 |
The work done by hard force, scalar product of two vectors,the work done by a variable force, kinetic energy,work-kinetic energy, power |
Explanation, solving problems, answer and question |
| 8 |
mid-term exam |
|
| 9 |
Potential energy, conservative and non-conservative forces |
Explanation, solving problems, answer and question |
| 10 |
Potential energy, conservation of mechanical energy, the work done by non-conservative forces, relationship between conservative forces and potential energy, energy diagrams, general energy conservation, mass-energy equivalence |
Explanation, solving problems, answer and question |
| 11 |
Linear momentum and conservation, impulse and momentum collision |
Explanation, solving problems, answer and question |
| 12 |
Elastic and inelastic collision in one dimension, Collisions in Two Dimensions |
Explanation, solving problems, answer and question |
| 13 |
Angular displacement, speed and acceleration, rotational kinematics, angular and linear quantities, rotational energy, moment of inertia calculation torque, relationship between torque and angular acceleration, power and energy in rotation movement |
Explanation, solving problems, answer and question |
| 14 |
Rolling motion of a rigid body, cross product and torque, angular momentum of a particle |
Explanation, solving problems, answer and question |
| 15 |
Angular momentum of rotating rigid body, conservation of angular momentum |
Explanation, solving problems, answer and question |
| 16 |
final exam |
|
| Recommend Course Book / Supplementary Book/Reading |
| 1 |
• Fen ve Mühendislik için Fizik, R.A. Serway, Palme Yayıncılık, Ankara, 1995. |
| 2 |
• Fiziğin Temelleri, D. Halliday ve R. Resnick, Savaş Kitabevi, Ankara, 1985. |
| 3 |
• Temel Fizik, P.M. Fishbane, S. Gasirowicz, S.T. Thornton, Arkadaş Yayınları, Ankara, 2003. |
| Required Course instruments and materials |
| lecture notes |
