Issue date: 01.10.2019

Revision date: 01.10.2019

Revision No: 00

DF Board Decision No: -

Course Name : Physics-I

Degree: Bachelor

Code

Year/Semester

Local Credits

ECTS Credits

Course Implementation, Hours/Week

Course

Tutorial

Laboratory

PHYS111

1/1 (fall)

4

5

3

2

Department

Maritime Transportation and Management Engineering

Marine Engineering

Instructors

Contact Information

Office Hours

Web page

ois.pirireis.edu.tr     Course Name: PHYS111 - Physics-I

Course Type

 Compulsory

Course Language

English

Course Prerequisites

  None

Course Category by Content, %

Basic Sciences

Engineering Science

Engineering Design

Humanities

80

10

10

-

Course Description

Introduction, measurement, estimation, 1-D kinematics , 2-D and 3-D kinematics, Newton’s laws, linear and rotational dynamics, work and energy, linear and angular momentum, equilibrium mechanics, fluids.

Course Objectives

1. To provide students with knowledge and skills required for applying fundamentals  

    of dynamic and static fields and these physical quantities and their experiment

2. To prepare students towards engineering problems in their programme.

Course Learning Outcomes

By students who pass the Physics 111 successfully

1. The basic terms and applications of Physics in Engineering can be defined
2. Physical quantities  can  be studied in different unit systems
3. Physical quantities of a system can be defined qualitatively & quantitatively
4. Different physical quantities can be derived from each other
5. The  explication of effective factors of physical quantities can be learned
6. Physical quantities can be integrated for necessities of marine technology
7. The solutions for these necessities can be scoped out
8. The administrative skill of basic project can be developed

Instructional Methods and Techniques

The presentation of theoretical and practical lectures, term project

Tutorial Place

-

Co-term Condition

-

Textbook

Giancoli C. Douglas, Physics For Scientists & Engineers, Fourth Edition, Pearson Education, Inc. 2008

Other References

http://ocw.mit.edu/courses/physics/

Homework & Projects

Students will be advised to read some parts from the chapters of course book and to solve problems presented in worksheets, to aid their efforts to follow the development of the course content and to prepare for the examinations. And also, they will present a project about “Physics in Maritime” at the end of the semester.

Laboratory Work

Students will conduct experiments in a parallel lecture (PHYS 111L).

Computer Use

Students will use computers to develop and prepare their term projects

Other Activities

Quizzes will be managed in every week parallel to the lecture subjects

Assessment Criteria

Activities

Quantity

Effects on Grading, %

Attendance

Midterm

1

20

Quiz

10

20

Homework

Term Paper/Project

1

15

Laboratory Work

Practices

Tutorial

Seminar

Presentation

Field Study

Final Exam

1

40

TOTAL

100

Effects of Midterm on Grading, %

60

Effects of Final on Grading, %

40

TOTAL

100

ECTS/

WORKLOAD TABLE

Activities

Count

Hours

Total

Workload

Lecture

14

3

42

Midterm

1

8

8

Quiz

10

1

10

Homework

Term Paper/Project

1

14

14

Laboratory Work

Practices

2

3

6

Tutorial

Seminar

Presentation

1

2

2

Field Study

Final Exam

1

8

8

Total Workload

90

Total Workload/25

90/25

Course ECTS Credits

4

Week

Topics

Course Outcomes

1

Introduction, measurement, estimation, dimensional analysis, maths reminders

I-VIII

2

Reference frames, 1-D kinematics, displacement, velocity, acceleration

I-VIII

3

Motion with constant acceleration, free fall.

I-VIII

4

Vectors, 2-D and 3-D vector kinematics.

I-VIII

5

Projectile motion.

I-VIII

6

Force, mass, weight, normal force, tensile forces. Newton’s laws of motion.

I-VIII

7

Frictional forces. Uniform circular motion.

I-VIII

8

Midterm exam.

I-VIII

9

Phases of matter, density, fluids, pressure, buoyancy force, Archimedes' principle.

I-VIII

10

Work, energy, power.

I-VIII

11

Conservative vs. non-conservative forces. Conservation of energy.

I-VIII

12

(Linear) momentum, its conservation & relation to force. Center of mass, collisions, impulse.

I-VIII

13

Rotational dynamics, angular quantities, torque, moment of inertia, angular momentum.

I-VIII

14

Static equilibrium of rigid bodies.

I-VIII

Program Outcomes

Level of Contribution

1

2

3

a

An ability to apply knowledge of mathematics, science, and engineering

X

b

An  ability to design and conduct experiments, as well as to analyze and interpret data

X

c

An ability to design a system, component or process to meet desired needs

X

d

Ability to function on multi-disciplinary teams

X

e

An ability to identify, formulate, and solve engineering problems

X

f

An understanding of professional and ethical responsibility

X

g

An ability to communicate effectively

X

h

The broad education necessary to understand the impact of engineering solutions in a global and societal context

X

i

A recognition of the need for, and an ability to engage in life-long learning

X

j

A knowledge of contemporary issues

X

k

An ability to use the techniques, skills and modern engineering tools necessary for engineering practice

X

l

An ability to apply legal, societal and environmental knowledge in maritime transport and in all respective modes of transport operations.

X

m

An ability to interpret and analysis of the data regarding maritime management and operations, recognition and solution of problems for decision making process.

X

Course

Outcomes

I

II

III

IV

V

VI

VII

VIII

Programme Outcomes

a

X

X

X

X

X

X

X

X

b

X

X

X

X

X

X

X

X

c

X

X

X

X

X

X

X

X

d

X

e

X

X

X

X

X

X

X

X

f

X

g

X

h

X

X

X

i

X

j

X

k

X

X

X

l

X

X

X

m

X

X

X

X

X

X

X

X