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Lecture
Control Volume Approach: Mass Conservation and Physical Laws
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Fluid Mechanics: Control Volume Approach
Introduces powerful tools for analyzing fluid mechanics problems, emphasizing mass conservation, Newton's second law, and the continuity equation.
Fluid Kinematics and Control Volume Analysis
Discusses fluid kinematics and the control volume approach using the Reynolds Transport Theorem.
Fluid Mechanics: Control Volume Approach and Energy Conservation
Discusses the control volume approach in fluid mechanics, focusing on conservation laws and their applications.
Energy Conservation: The First Law of Thermodynamics
Covers the first law of thermodynamics, focusing on energy conservation and its implications in fluid dynamics.
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Explores engine thrust analysis using Munson EX 5.15 and the first law of thermodynamics.
Energy Conservation in Open Systems
Explores energy conservation in open systems, analyzing mass and energy transfer in turbines, compressors, and heat exchangers.
Fluid Dynamics: Differential Conservation Laws and Equations
Covers the differential approach to fluid dynamics, focusing on conservation laws and the Cauchy stress tensor.
Conservation Laws: General Framework
Covers the fundamental conservation laws and properties of space and time beyond mechanics.
Fluid Dynamics: Control Volume and Reynolds Transport Theorem
Covers control volume and system concepts in fluid dynamics, focusing on the Reynolds transport theorem.
Fluid Mechanics: Bernoulli's Equation and Applications
Discusses Bernoulli's equation and its applications in fluid mechanics, including practical examples like pitot tubes and venturi meters.
