| 課程大綱 Syllabus |
學生學習目標
Learning Objectives |
單元學習活動
Learning Activities |
學習成效評量
Evaluation |
備註
Notes |
序
No. | 單元主題
Unit topic |
內容綱要
Content summary |
| 1 | General principle |
Fundamental of mechanics |
A general review of mechanics including engineering mechanics, mechanics of materials, etc. |
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| 2 | Concurrent force systems |
Resultant of two and more concurrent forces, resolution of force into components, rectangular components of force |
To learn the determination of force resultant and force resolution |
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| 3 | Equilibrium: concurrent force systems |
Free-body diagram and quilibrium equations of a particle |
To learn how to construct a free-body diagram and the quilibrium equations of a particle to solve the quilibrium problems of concurrent force systems |
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| 4 | Stress, strain, and deformation of axial loading |
Stresses, strains, stresses on an inclined plane |
To learn how to calculate the of stresses and strains on a axially loaded member and the stresses on an inclined plane |
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| 5 | Stress, strain, and deformation of axial loading |
Statically indeterminate axially loaded problems |
Applications of mechanics of materials to solve the statically indeterminate axially loaded problems |
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| 6 | Moment of a force |
Moment of a force, centroids of an area |
Determinations of moment of a force and the centroid of an area |
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| 7 | Centroids of an area |
Derivatio of centroids of some common areas and composite bodies |
To calculate the centroids of a planar area |
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| 8 | Equilibrium: rigid and deformable bodies |
Equilibrium equations in three dimensional bodies |
To calculate the equilibrium condition for a body in three dimension |
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| 9 | Midterm exam |
Including the contents from the first week to the eighth week |
To evaluate what students have learned for the first eight weeks |
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| 10 | Torsional loading: shafts |
Torsional shearing stress formula and torsional displacement |
To calculate the torsional stress and angle of twist on a shaft subjected to a torque |
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| 11 | Torsional loading: shafts |
Stresses on an oblique plane |
To calculate the stresses on an oblique plane from a given shearing stress state on a shaft |
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| 12 | Flexural loading: stresses in beams |
Flexural strains and stresses, second moments of areas, shearing force and bending moment diagrams |
Learn how to determine the second moments of areas in order to calculate bending stress in a beam, and plot the shearing force and bending moment diagrams in a beam subjected to various loading |
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| 13 | Flexural loading: stresses in beams |
Derivation of the elastic flextural stress formula |
Calculation of bending stress in a beam subjected to a bending moment |
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| 14 | Flexural loading: stresses in beams |
Derivation of the shearing stress formula in a beam |
Calculation of shearing stress in a beam subjected to a shearing force on a crosss section |
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| 15 | Flextural loading: beam deflections |
Derivation of the differential equation of the elastic bending curve |
Calculation of the deflection of a beam under bending loading |
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| 16 | Flextural loading: beam deflections |
Deflections of a beam by integration method |
Using integration method to calcualte the deflection of a beam under bending loading |
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| 17 | Combined static loading |
Stresses at a general point, plane stress and plane strain, and Mohr's circle construction |
To learn the stress state at a general popint under combined stateic loading and the plotting of Mohr's circle for plane stress state |
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| 18 | Final exam |
Including the contents after the midterm |
To evaluate what students have learned for the second half term |
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