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Related lectures (32)
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Conservation Laws: General Framework
Covers the fundamental conservation laws and properties of space and time beyond mechanics.
Advanced Physics I: Energy and Collisions
Explores energy conservation in collisions and systems of variable mass.
Chocs et Collisions: Newton's Laws and Restitution Coefficient
Explores Newton's laws, kinetic energy, and restitution coefficient in collisions, including conservation laws and attached objects.
Conservation of Momentum and Kinetic Energy
Explores conservation of momentum and kinetic energy in collisions, emphasizing the importance of understanding collision outcomes.
Experiments: Collisions
Explores experiments on collisions, kinetic energy, momentum conservation, and observation anomalies.
Advanced Physics I: Energy and Collisions
Explores energy, collisions, and variable mass systems in advanced physics.
Frahm Damper: Vibratory Mechanics
Explores the Frahm damper in vibratory mechanics and its optimization.
Variable Mass Systems
Covers rotation, energy, shocks, and variable mass systems in advanced physics.
Rocket Dynamics: Conservation Laws and Center of Mass
Explores conservation laws in collisions and rocket dynamics with variable mass systems.
Elastic and Inelastic Collisions
Explains elastic and inelastic collisions, focusing on momentum and kinetic energy conservation with practical examples.
Modeling Shock Response of Brittle Materials
Explores shock response modeling of brittle materials, including spall strength evaluation and shear failure mechanisms.
Thermally Activated Dislocation Motion
Explores thermally activated dislocation motion and physically based constitutive models in materials at high strain rates.
Moment of Inertia: Solid Rotation
Covers the concept of moment of inertia for solid rotation and its independence from movement and reference frame choice.
Action-Reaction Law, Collisions
Covers the action-reaction law, types of collisions, and conservation of momentum.
Elastic Collisions: Derivation
Covers the derivation of elastic collisions and conservation laws for momentum and kinetic energy.
Inelastic Collisions: Conservation Laws
Explains inelastic collisions, focusing on momentum conservation and kinetic energy dissipation.
Failure Mechanisms in MEMS
Explores failure mechanisms in MEMS, covering design, manufacturing, and in-use failures, emphasizing reliability considerations and mitigation strategies for mechanical shock and vibration resistance.
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.
Forced Harmonic Oscillator: Digital Solution
Explores forced harmonic oscillators, resonance, and effects of damping on mechanical oscillators.
Collisions: Conservation Laws and Applications
Explores the study of collisions, emphasizing conservation laws and their broad applications beyond mechanics.
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