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Lecture
Fluid Mechanics: Control Volume Approach
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Fluid Dynamics: Control Volume Approach
Explores the control volume approach in fluid dynamics, emphasizing mass conservation and Newton's second law for practical flow analysis.
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.
Fluid Flow Analysis: Conservation Laws
Explores solving fluid flow problems using control volumes and fundamental physics laws, emphasizing the importance of practice and student feedback.
Non-inertial Reference Frames & Constraints
Covers forces in non-inertial reference frames, constraints, and the use of pulleys and ropes.
Newton's Laws of Motion
Explores Newton's laws of motion, their applications, and experimental verifications in various contexts.
Angular Momentum Balance in Continua
Explores stress tensor symmetry through angular momentum balance in continua, covering topics like energy conservation and constitutive laws.
Non-inertial Reference Frames and Constraints
Covers non-inertial reference frames, constraints, and continuous systems, including angular velocity, linear and rotational acceleration, and modeling of merry-go-rounds, ropes, and pulleys.
Newton's Laws of Motion
Introduces Newton's laws of motion, covering force, mass, frames of reference, and practical examples like friction and springs.
Fluid Dynamics: Control Volume and Reynolds Transport Theorem
Covers control volume and system concepts in fluid dynamics, focusing on the Reynolds transport theorem.
Two-Body Problem: Center of Mass and Forces
Discusses the two-body problem, center of mass, forces, and Newton's laws.
