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FIRST CYCLE - BACHELOR'S DEGREE
FACULTY OF TECHNOLOGY
MANUFACTURING ENGINEERING DEPARTMENT
182 MANUFACTURING ENGINEERING
Course Information
Course Learning Outcomes
Course's Contribution To Program
ECTS Workload
Course Details
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COURSE INFORMATION
Course Code
Course Title
L+P Hour
Semester
ECTS
MNFE 104
STATICS
4 + 0
2nd Semester
5
COURSE DESCRIPTION
Course Level
Bachelor's Degree
Course Type
Compulsory
Course Objective
Students in the theory and applications of engineering mechanics to provide a clear and detailed manner.
Course Content
Basic concepts: the principles of mechanics, statics of particles: The state diagram, free body diagram, diagram and force polygon Forces, Forces: Forces Collection, removal of the components separation, the resultant force plane forces System, Space system of forces, equivalent force systems, force pairs and Moment: Static Equilibrium: Equilibrium of rigid bodies, plane forces balance systems, space systems, the balance of forces, Bonding forces: Single force and distributed loads, reaction forces and calculation of center of gravity: Areas, Volumes, Guldin Pappus Theorem, curved surfaces centers of gravity of the account, Moment of Inertia: Areas moment of inertia, mass moment of inertia, carrier systems: Lattice systems, frames and machines, bending of beams: Vertical shear forces and bending moments in beams installed accounts and drawings, Friction: Friction and laws, bearings, belt and pulley systems, the principle of virtual work Static analysis of computer problems.
Prerequisites
No the prerequisite of lesson.
Corequisite
No the corequisite of lesson.
Mode of Delivery
Face to Face
COURSE LEARNING OUTCOMES
1
Students will gain the ability to apply theoretical knowledge to engineering problems.
COURSE'S CONTRIBUTION TO PROGRAM
PO 01
PO 02
PO 03
PO 04
PO 05
PO 06
PO 07
PO 08
PO 09
PO 10
PO 11
PO 12
PO 13
LO 001
4
Sub Total
4
Contribution
4
0
0
0
0
0
0
0
0
0
0
0
0
ECTS ALLOCATED BASED ON STUDENT WORKLOAD BY THE COURSE DESCRIPTION
Activities
Quantity
Duration (Hour)
Total Work Load (Hour)
Course Duration (14 weeks/theoric+practical)
14
4
56
Hours for off-the-classroom study (Pre-study, practice)
15
3
45
Mid-terms
1
10
10
Final examination
1
19
19
Total Work Load
ECTS Credit of the Course
130
5
COURSE DETAILS
Select Year
All Years
2022-2023 Spring
2021-2022 Spring
2019-2020 Spring
2018-2019 Spring
2017-2018 Spring
2016-2017 Spring
2015-2016 Spring
2014-2015 Spring
2013-2014 Spring
2012-2013 Spring
Course Term
No
Instructors
Details
2022-2023 Spring
1
BERKAY ERGENE
Details
2021-2022 Spring
1
BERKAY ERGENE
Details
2019-2020 Spring
2
HASAN ÇALLIOĞLU
Details
2018-2019 Spring
1
GÖKMEN ATLIHAN
Details
2017-2018 Spring
1
GÖKMEN ATLIHAN
Details
2016-2017 Spring
1
GÖKMEN ATLIHAN
Details
2015-2016 Spring
1
GÖKMEN ATLIHAN
Details
2014-2015 Spring
1
GÖKMEN ATLIHAN
Details
2013-2014 Spring
2
GÖKMEN ATLIHAN
Details
2012-2013 Spring
2
GÖKMEN ATLIHAN
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Course Details
Course Code
Course Title
L+P Hour
Course Code
Language Of Instruction
Course Semester
MNFE 104
STATICS
4 + 0
1
Turkish
2022-2023 Spring
Course Coordinator
E-Mail
Phone Number
Course Location
Attendance
Assoc. Prof. Dr. BERKAY ERGENE
bergene@pau.edu.tr
Course location is not specified.
%70
Goals
Students in the theory and applications of engineering mechanics to provide a clear and detailed manner.
Content
Basic concepts: the principles of mechanics, statics of particles: The state diagram, free body diagram, diagram and force polygon Forces, Forces: Forces Collection, removal of the components separation, the resultant force plane forces System, Space system of forces, equivalent force systems, force pairs and Moment: Static Equilibrium: Equilibrium of rigid bodies, plane forces balance systems, space systems, the balance of forces, Bonding forces: Single force and distributed loads, reaction forces and calculation of center of gravity: Areas, Volumes, Guldin Pappus Theorem, curved surfaces centers of gravity of the account, Moment of Inertia: Areas moment of inertia, mass moment of inertia, carrier systems: Lattice systems, frames and machines, bending of beams: Vertical shear forces and bending moments in beams installed accounts and drawings, Friction: Friction and laws, bearings, belt and pulley systems, the principle of virtual work Static analysis of computer problems.
Topics
Weeks
Topics
1
2
3
4
5
6
7
8
9
10
11
12
13
14
Materials
Materials are not specified.
Resources
Course Assessment
Assesment Methods
Percentage (%)
Assesment Methods Title
Final Exam
50
Final Exam
Midterm Exam
40
Midterm Exam
Quiz
10
Quiz
L+P:
Lecture and Practice
PQ:
Program Learning Outcomes
LO:
Course Learning Outcomes
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Home Page
About University
Name And Address
Acedemic Authorities
General Discription
Academic Calendar
General Admission Requirements
Recognition of Prior Learning
General Registration Procedures
ECTS Credit Allocation
Academic Guidance
Information For Students
Cost Of Living
Accommodation
Meals
Medical Facilities
Facilities for Special Needs Students
Insurance
Financial Support for Students
Student Affairs
Learning Facilities
International Programs
Language Courses
Internships
Sports Facilities and Leisure Activities
Student Associations
Practical Information for Mobile Students
Degree Programmes