Lectures related to Rolling Forces and Power in Metal Forming

Structural Mechanics: Beam Bending and Boundary Conditions

Explores the moment-curvature relation for beams, emphasizing stress distribution and typical boundary conditions.

Wheel and Thread: Static Equilibrium and Rolling Motion

Covers the static equilibrium and motion of a wheel using a thread.

Continuum Mechanics: Forces and Deformation

Covers the basics of continuum mechanics, including forces transmission, energy conservation, and body motion geometry.

Wire Drawing: Frictional Forces and Plastic Deformation

Explores frictional forces and plastic deformation in wire drawing processes.

Physics 1: Small Oscillations and Equilibrium Points

Explores small oscillations, equilibrium points, harmonic oscillators, and gravitational fields in physics, including historical perspectives on celestial movements.

Mechanics of Solids: Rotation and Equilibrium

Explores the mechanics of solids, emphasizing rotation and equilibrium principles.

Mechanics: Equilibrium Points and Stability

Explores equilibrium points and stability in mechanical systems, analyzing how systems return to or move away from their positions after disturbances.

Mechanics: Introduction and Calculus

Introduces mechanics, differential and vector calculus, and historical perspectives from Aristotle to Newton.

Forces in Metal Forming: Extrusion, Drawing, Rolling

Discusses the work in metal forming, dynamics, and stress calculation.

Mechanics of Kirchhoff Rods I

Covers the mechanics of slender structures, focusing on exact kinematics and equilibrium equations of rods.

Geometric Locus and Mechanics

Covers geometric locus, cone sections, Kepler's problem, Newton's laws, and conservation laws.

Equations of Motion and Stability

Explores equations of motion resolution, equilibrium points, and stability analysis through small perturbations in a mechanical system.

Lamination: Deformation, Ductility, and Dislocations

Explores lamination, ductility, plastic deformation, and dislocations in materials, emphasizing the effects of strain rate and temperature.

Rigid body rotation and static equilibrium

Explores rotational motion, moment of inertia, torque, and static equilibrium in rigid bodies.

Structural Mechanics Principles: Equilibrium and Stability

Explores the principles of structural mechanics, including internal loads, equilibrium stability, and the superposition principle.

Simple Pendulum: Constraints and Equations of Motion

Explores the analysis of a simple pendulum, discussing constraints, forces, and equilibrium points.

Molecular dynamics under constraints

Explores molecular dynamics simulations under holonomic constraints, focusing on numerical integration and algorithm formulation.

Central Motion: Forces and Kinetics

Explores the moment of a force, angular momentum, and central motion, including historical perspectives and mathematical representations.

Trajectory Determination in Mechanics

Explains trajectory determination in mechanics, including types of trajectories and effective potential, with practical examples.

Forces and Energy: Constraints, Power, Work, and Kinetic Energy

Discusses constraints, power, work, and kinetic energy in mechanics, focusing on practical examples like a metronome and a conical pendulum.