Lectures related to Dispositionalism & Laws of Nature

Philosophy of Space and Time: Ontology and Dynamics

Examines philosophical perspectives on space, time, laws of nature, and dynamics.

Metaphysics: Aristotle's Theory and Natural Philosophy

Explores Aristotle's metaphysics, the role of science in answering 'why' questions, and the essence of natural philosophy.

Introduction: Purpose of Physics, Physical Law, CMS

Introduces the purpose of physics, the role of mathematics, and the importance of observation in understanding natural phenomena.

Quantum Science and Technology

Covers the crisis of classical physics, quantum mechanics, entanglement, and quantum computing.

Conservation of Momentum and Kinetic Energy

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

Symmetries in Dynamics

Covers the symmetries in space-time and dynamical equations, with examples from Newtonian dynamics.

Mind and Free Will

Discusses determinism's impact on free will, the nature of laws of nature, and the contrast between scientific and manifest images of the world.

Physics Fundamentals: Exploring Scales and Scientific Methods

Covers the fundamental concepts of physics, emphasizing scientific methods and measurement across various spatial scales.

Relativistic Quantum Mechanics

Explores special relativity, the Schrödinger and Dirac equations, antiparticles, and fermions' shortcomings.

Introduction to Physics: Scientific Approach and Mathematics

Covers the scientific method, mathematical descriptions, and the role of mathematics in Physics.

Intelligent Maintenance Systems

Discusses faults in intelligent maintenance, Denoising Sparse Wavelet Network, Koopman operator theory, and Graph Neural Networks.

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Gauge Theories And Modern Particle Physics

Covers gauge theories, modern particle physics, the standard model, and field content.

Overview of Particle Physics and Rutherford Scattering

Covers the constituents of matter, fundamental forces, the Standard Model, natural units, and particle interaction experiments.

Quantum Physics: Historical Introduction and Schtenger-Lach Experiment

Delves into the historical development and significance of quantum physics, highlighting the failure of classical physics and the key Schtenger-Lach experiment.

Conservation Laws: General Framework

Covers the fundamental conservation laws and properties of space and time beyond mechanics.

Quantum Field Theory: Fundamentals and Applications

Introduces Quantum Field Theory, covering paths to QFT, fields, weak interactions, and the Standard Model of particle Physics.

Forces in Physics

Explores fundamental forces in physics, including gravity, electromagnetism, friction, and deformation.

Dynamical modeling, decoding, and control of multiscale brain network activity

Explores dynamical modeling, decoding, and control of brain network activity for personalized therapy.

Beyond the Standard Model: Effective Quantum Field Theory

Explores effective quantum field theory, the Standard Model's precision, and the search for new physics beyond it.