Lectures related to Shock Waves: Oblique Shock Theory

Introduction to Free Convection: Governing Equations

Explores free convection, laminar flow boundary layer equations, and heat transfer principles.

Conservation of Momentum and Kinetic Energy

Explores conservation of momentum and kinetic energy in collisions, emphasizing the importance of understanding collision outcomes.

Momentum and Impulse: Conservation and Center of Mass

Explores momentum, impulse, and conservation principles in dynamic systems.

Flow Characteristics and Equations

Covers the characteristics and equations related to flow in non-viscous fluids, including mass conservation and momentum conservation.

Global Energy Conservation

Covers the global conservation laws related to energy, momentum, and helicity.

Biomechanics of Musculoskeletal System: Linear Constitutive Law

Explores biomechanics of musculoskeletal system and tissue behavior under mechanical loading.

Conservation Laws: Properties and Known Laws

Covers the definition of conservation laws and known laws related to momentum, energy, and helicity.

Straight Shocks: General Equations

Discusses mass, momentum, and energy conservation in straight shock waves.

Conservation Laws in Plasma Physics

Covers the conservation laws in plasma physics, highlighting entropy, energy, and momentum conservation.

Heat Transfer Fundamentals

Covers the fundamentals of heat transfer, focusing on radiation, conduction, and convection, including boundary layers and Nusselt number.

Governing Equations: Incompressible and Compressible Flows

Covers the governing equations for incompressible and compressible flows and numerical flow simulation techniques.

Continuum Mechanics: Conservation Laws and Kinematics

Introduces continuum mechanics, focusing on conservation laws and kinematics for continuous media.

Fluid Dynamics: Navier-Stokes Equations

Explores fluid dynamics, covering Navier-Stokes equations, momentum conservation, stresses, and dimensional analysis.

Free Convection Correlations

Covers the fundamentals of free convection and correlations for heat transfer between a solid and a fluid in motion at different temperatures.

Drag, Momentum, and Center of Mass

Covers drag, momentum, and center of mass, emphasizing conservation laws and force applications.

Fluid Dynamics: Differential Conservation Laws and Equations

Covers the differential approach to fluid dynamics, focusing on conservation laws and the Cauchy stress tensor.

Two-Body System: Center of Mass and Collisions

Explores the center of mass in a two-body system and the dynamics of collisions, including elastic and inelastic scenarios.

Continuum Mechanics: Theory and Applications

Covers the basics of continuum mechanics, including constitutive laws, stress, dynamics, and fluid motion.

From Boltzmann to Vlasov equation

Discusses the derivation of Vlasov equation from Boltzmann equation, conservation laws, and formal solutions.

Velocity Boundary Layer Equations

Focuses on velocity boundary layer equations in laminar flow and covers mass and momentum conservation, Navier-Stokes equations, and the Reynolds number.