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The fourth and final lecture on bolts covers bolt groups, and shearing forces.
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The third lecture on fasteners covers stresses and safety factors.
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The second lecture on threaded fasteners discusses static loads
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The first lecture in threaded fasteners discusses standards and design issues.
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The third and final lecture on springs covers fatigue failure, buckling, and spring surge.
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The second lecture of springs covers loading and stress.
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The first lecture of springs covers basics and design issues.
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The last lecture on gears covers strength and contact stresses and a brief review of design.
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The third lecture on gears focuses on stress and the numerous correction factors involved.
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The second lecture of gears covers some fundamental kinematics and force balancing.
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The first lecture on gears introduces a variety of terminology and types as well as the design issues.
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The second lecture on bearings covers the fatigue life equation
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The first lecture of bearings talks about different types and basic design issues
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The second lecture on shafts covers failure modes, deflection, and critical speed.
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The first lecture on shafts covers basic terminology and design issues.
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The fourth and final lecture on fatigue covers safety factors and stress concentrations
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The third lecture on fatigue goes over a small example and introduces the sig-m sig-a plot
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Second lecture on fatigue covering more of the knockdown factors and characterizing the S-N curve
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The first lecture on fatigue (corresponding loosely with Shigley Ch.6)
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The second lecture in section of failure theories.
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The first lecture in my section on failure theories
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The final lecture in section 2 discusses Mohr's circle as a way to visualize princial stresses.
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Section 2 Loads to Stresses continued. This lecture reviews the stress element and introduces stress concentrations
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Section 2 continued. This lecture reviews shear and moment diagrams.
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Lecture focusing on reviewing types of loads and their stresses. Also impact is covered.
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the second lecture finishes the introduction. it discusses safety and introduces the blender example problem
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the first lecture in this upper-level mechanical courses
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