autumn 2017 ITE1815 Mechanics II - 10 ECTS
Course content
i. Complete stress and strain analysis of a truss structure, Stresses on oblique plan, Stresses under general loading, Static Indeterminacy, Thermal Stresses, Generalized Hooke`s Law
ii. Composite Materials, Saint Venant`s Principle, Elastoplastic Materials
iii. Torsional Loads, Torsional failure modes, Statically indeterminate shafts, Torsion of elastoplastic material
iv. Pure Bendings, Beam Section Properties, Bending of materials made of several materials e.g. reinforced concrete beams, Bending of elastoplastic material
v. Cables with concentrated loads, cables with distributed loads, catenary vi. Stress transformations, Mohr`s Circle, Tresca Criteria, Von Misses Criteria, Pressure Vessel, Strain Rosette
vii. Equation of Elastic Curve, Statically indeterminate beams, Method of Superposition
viii. Strain Energy Density, Impact Loading, Castigliano`s Theorem
ix. Vibrations, Simple Harmonic Motion, Natural frequency of simple continuous systems, Damped System, Resonance
Objectives of the course
Students will gain the knowledge (LU-M-K-1), such as:
i. They will understand and can calculate the effect of joint forces and sectional forces on composite statically determinate structures.
ii. They can distinguish between statically determinate and statically indeterminate structures
iii. They can suggest calculation for selected statically indeterminate structure
iv. They can understand the usage of Generalized Hooke's law
v. They can find maximum stresses and strain in a simple structure
vi. They can use energy theory to find the behavior of structure under a loading.
vii. They can calculate natural frequency in simple continuous systems.
Students will gain the knowledge (LU-M-K-2), such as:
i. They will learn to how to use the formulas of statics and strength of materials. Students will gain the knowledge (LU-M-K-5), such as:
ii. They will be able to look up and apply formulas and tables beyond those directly included in the instruction.
Students will learn the skills (LU-M-F-1..5), such as:
i. Students can learn to apply their knowledge gained in this subject to solve more complicated problems, in systematic way, later in the program.
Students will have the general competence (LU-M-G-1..2), such as:
i. Students will understand the basis for assessing how structures load, strength and design have an impact on resource use and safety.
Assessment
There will be 4 compulsory homework assignments - They will be graded for 25% Their will be 1 classwork assignment - It will be graded for 10% To enter in the FINAL EXAM the student should have at least, 15% out of 35% (25%+10%)
It will be 5 hours written individual examination under supervision & will carry 65% of the total grade
Recommended reading/syllabus
Name: Mechanics of Materials 6th Edition Authors: Ferdinand P. Beer, E. Russel Johnston, John T. DeWolf, David F. Mazurek Publisher: McGraw Hills Name: Mechanical Vibrations 5th Edition Edition Authors: S. S. Rao Publisher: Pearson
Additional Litterature:
Books by F. Irgens such as Statics, Strength of Materials, and Dynamics R.C. Hibbeler Engineering Mechanics, Statics. Pearson Prentice Hall R.C. Hibbeler: Statics and mechanics of materials. Pearson Prentice Hall Wahab: Dynamics and Vibration. An Introduction Mechanics of Materials by James M. Gere and Barry J. Goodno
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- About the course
- Campus: Narvik | Alta | Mo i Rana | Annet | Nettbasert |
- ECTS: 10
- Course code: ITE1815
- Responsible unit
- Institutt for industriell teknologi