Lectures related to Springs: Typical Functions

Analyzes control systems in chassis dynamics, focusing on automobile suspension systems.

Explores the rheology of suspensions, covering viscosity, particle interactions, and dynamic effects.

Mixing Properties of Infinite Measure Preserving Systems

Explores mixing properties of infinite measure preserving systems, focusing on suspensions, Govers transformations, and Lorentz gas.

Powder Treatment: Rheology, Mixing and Granulation

Explores rheology, mixing, and granulation processes in powder treatment for ceramics and superplasticizers in suspensions.

Harmonic Oscillator with Damping Force

Explores the behavior of an oscillator with damping force and its applications in real-world systems.

Suspension Design: Carbon Monocoque

Covers the redesign of a Formula Student race car's suspension system.

Resonance in Oscillatory Systems

Explores resonance in oscillatory systems, showcasing its effects and implications in various real-world scenarios.

Powder Treatment: Rheology, Mixing, Granulation

Covers powder treatment, rheology, mixing, granulation, and cement production in ceramic processing, emphasizing flow behavior and superplasticizers.

In-Wheel Motor Assembly: Formula Student Race Car

Delves into designing an in-wheel Formula Student wheel assembly for enhanced performance and sustainability.

Pointed Mapping Spaces: Exponential Law and Adjunction

Explores pointed mapping spaces, the exponential law, adjunction properties, and homotopic classes.

Mechanisms in Robotics: Springs

Covers the design and function of springs in robotics, including overconstraint mechanisms and energy storage.

Suspension Design for EPFL Racing Team

Discusses the design of a high-performance suspension system for a formula student race car, emphasizing teamwork and technical skills.

Wheel Assembly: EPFL Racing Team

Covers the implementation of in-wheel electrical motor systems for the EPFL Racing Team car, enhancing performance and competitiveness.

Suspensions and Emulsions: Phenomenology

Explores suspensions, emulsions, interaction forces, stability factors, and emulsion types.

Electric Motors: Principles and Applications

Explores electric motor principles, linearity, control systems, active suspensions, and Laplace transforms.

Capstan Problem Experiment

Demonstrates an experiment on the capstan problem and its applications in force amplification.

Energy Storage: Overview and Technologies

Explores the significance of energy storage technologies in balancing energy supply and demand, covering various storage options and their implications.

Energy Storage: Technologies and Applications

Explores energy storage technologies, their advantages, applications, and economic aspects in renewable energy systems.

Cohomology Representations: Lecture 14.1

Covers the concept of cohomology representations and the implications of reduced suspension operations on spaces.

Energy Storage: Technologies and Applications

Explores energy storage technologies, applications, economics, and environmental considerations for future energy demands.