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[DOC File]Lab #8: The Kinematics & Dynamics of Circular & Rotational ...
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Physics 211 Lab . The Kinematics and Dynamics of. Circular and Rotational Motion. Introduction: When discussing motion, it is important to be aware that there are several different types and that each type is dependent upon a particular frame of reference.
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[DOC File]TOPICS TO COVER IN CLASS
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Pipe friction is KQx. Use Manning’s equation, thus K = and x = 2. Note: you could use Darcey-Weisbach or Hazen-Williams. If pipes of different diameter are used, calculate a K for each size (and the corresponding length). Minor losses can usually be written as KV2/2g, where K …
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[DOC File]EXERCISE 2-1
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a) The six kinematic equations defining the rate of deformation components are required to write in terms of the velocity components. Write these six equations as one equation using indicial notation. Compare and contrast this kinematic equation with that relating the displacement components to the infinitesimal strain components.
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[DOC File]References on time of concentration with respect to sheet flow
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The Manning-kinematic solution is sound, defensible, and easy to use. Therefore, it is recommended that this equation be used to compute Tt for the overland flow segment. The maximum flow length of 300’ with a most likely length of 100’ should be used in overland flow computations for unpaved areas.
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[DOC File]2-D MOTION
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Use these relationships to construct the graphs for velocity vs. time and position vs. time just below each acceleration graph from question 1. Use the same scale for each time axis. Write down the equation that best represents each graph. If there are constants in your …
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[DOC File]EXERCISE 2-1
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Write these six equations as one equation using indicial notation. Compare and contrast this kinematic equation with that relating the displacement components to the infinitesimal strain components. b) Use the commonly employed constraint that flowing rock is incompressible to rewrite for the incompressible linear viscous material.
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[DOC File]2-D MOTION
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Use these relationships to construct the graphs for velocity vs. time and position vs. time just below each acceleration graph from question 1. Use the same scale for each time axis. Write down the equation that best represents each graph. If there are constants in your equations, what kinematic …
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[DOC File]57:020 Mechanics of Fluids & Transfer Processes
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2. Calculate the fluid density for each individual measurement using equation (5). 3. Calculate the kinematic viscosity for each individual measurement using equation (4). 3.1.4 Uncertainty Analysis. Uncertainties for the experimentally-determined glycerin density and kinematic viscosity will be evaluated using Lab1_Data_Reduction_Sheet.
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[DOC File]FLUID PROPERTIES
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Each side of the plate is 60 cm. The thickness of the oil film is 12.5 mm. The upper plate, which moves at 2.5 m/s requires a force of 98.1 N to maintain the speed. Determine the dynamic viscosity of the oil and the kinematic viscosity of the oil in stokes if the specific gravity of the oil is 0.95.
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When to use each kinematic equation