Applied Mechanic books and publications |
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Introduction to Mechanisms
1 Physical Principles
2 Mechanisms and Simple Machines
3 More on Machines and Mechanisms
4 Basic Kinematics of Constrained Rigid Bodies
5 Planar Linkages
6 Cams
7 Gears
8 Other Mechanisms
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Engineering learning resource center
- Statics - Equilibrium
- Statics - Analysis of Structures
- Statics - Shear Force and Bending Moment Diagrams
- Statics - Friction
- Statics - Centroids and Moment of Inertia
- Mechanics - Concept of Stress
- Mechanics - Axial Loading
- Mechanics - Torsion
- Mechanics - Bending
- Mechanics - Shear Stress
- Mechanics - Stress Transformation
- Mechanics - Mohr's Circle
- Mechanics - Pressure Vessels
- Mechanics - Combined Loadings
- Mechanics - Deflection of Beams
- Mechanics - Columns Additional
- Practice Problems Additional
Engineering learning resource center
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Statics and strength of materials- Statics I
- Principals
- Statics II - Applications
- Stress, Strain & Hooke's Law
- Beams
- Torsion, Rivets & Welds
- Columns & Pressure Vessels
- Friction (may be omitted due to time considerations)
- Special Topics I
- Tables and Links
Statics and strength of materials
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Mechanics of elastic bodies
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- Overview
- Grading policy
- Projects you can do for bonus points
- How materials carry load
- Hooke's law and factor of safety
- Extension of bars
- Thermal strain
- Torsion of a circular shaft
- Area moment of inertia
- Pure shear and power transmission
- Distributed loads
- Internal loads: Shear force, normal force, and bending moment
- Shear load and bending moment diagrams
- Pure Bending
- Shear stress in beams
- Beams with axial loads
- Plane stress
- Mohr's circle for plane stress
- Hooke's law for plane stress
- Pressure vessels
- Deflection of beams
- Deflection of beams by superposition
- Buckling of columns
- Homework Solutions
- The math you need to know
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Engineering Statics and Dynamics
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- Outline
- Grading policy
- Notation and units
- Vectors
- Vector components: 2-D
- Vector components: 3-D
- Equilibrium equations for a particle
- Moment of a force: Part 1
- Moment of a force: Part 2
- Equivalent force-couple systems : Part 1
- Equivalent force-couple systems: The wrench
- Equivalent force-couple systems: Distributed loads
- Equilibrium for rigid bodies
- The analysis of trusses
- Frames and machines
- Internal forces
- Dry Friction
- Wedges and screws
- Belts
- Area Moments of Inertia
- Mass Moments of Inertia
- Equation sheet for exams
- A sample Exam I
- A sample Exam II
- A sample Exam III
- What you need to know from MATH
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| Engineering Statics |
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- Outline
- Grading policy
- Notation and units
- Rectilinear motion
- Curvilinear motion
- Rectangular coordinates
- Normal and tangential coordinates
- Polar coordinates
- Relative and constrained motion
- Space curvilinear motion
- Newton's 2nd law
- The work-energy relation
- Potential energy
- Linear impulse-momentum relation
- Impact
- Angular impulse-momentum relation
- Kinematics of rigid bodies
- Relative motion of points on a rigid body
- Instantaneous center of velocity
- Observations relative to moving frames
- Mass moments of inertia
- Equations of motion for a rigid body (Euler's equations)
- Calculating angular momentum for a rigid body
- Euler's second law for two dimensional motion
- Using Euler's laws for 2-D motion
- Work-energy relation for a rigid body
- An old Exam I
- An old Exam II
- The math you need to know
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Engineering Statics and Dynamics
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