Lectures related to Black Holes: Dimensional Analysis and Gravitational Force

General Physics: Mechanics SV

Covers the basics of General Physics, focusing on Mechanics SV and key mathematical concepts.

Advanced Physics I

Covers an introduction to physics, mechanics, measurements, and kinematics of point particles.

Graph Sketching: Motion Analysis

Explores motion graph analysis, focusing on function study and derivative interpretation.

Mechanics: Introduction and Calculus

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

Continuum Mechanics: Tensor Analysis and Kinematics

Covers tensor analysis, kinematics, and fluid mechanics in continuum mechanics.

Advanced Physics: Introduction to Mechanics

Introduces the fundamentals of advanced physics, emphasizing mechanics and historical developments from Aristotle to Newton.

Gravitation and Energy: Effective Potential

Covers gravitational force, energy conservation, and effective potential energy in elliptical and parabolic paths.

Kinematics of Material Point

Covers the kinematics of a material point, including orders of magnitude and practical applications.

Gravitational Waves: Observations and Implications

Explores the detection of gravitational waves, focusing on the first observation of a binary black hole merger and its implications for astrophysics.

Angular Momentum and Gravitational Law

Explores gravitational motion equations, energy conservation, black holes, and cosmology.

Introduction and Historical Perspective, Vectors and Kinematics

Explores historical perspective, vectors, kinematics, and mathematical modeling of physical systems.

Winding Around a Cylinder

Covers the physics of winding a wire around a cylinder and analyzing its perpendicularity.

Introduction to Continuum Mechanics

Covers the basics of continuum mechanics, including vector and tensor analysis, kinematics, and fluid mechanics.

Continuum Mechanics: Theory and Applications

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

Applications of Physics: Kinematics and Dynamics

Emphasizes applying physics concepts to solve problems and covers gravitational fields and space-time curvature.

Kinematics of the Material Point

Covers the kinematics of a material point, focusing on speed and accelerations.

Scattering Structures: From Amplitudes to Black Holes

Explores gauge symmetry, amplitudes, black holes, and fluids, highlighting the interplay between redundancy, diffeomorphisms, and the double copy phenomenon.

Physics Scales and Measurements

Explores physics scales, measurements, historical definitions of meter and kilogram, time definition, and scalars and vectors.

Advanced Physics I: Laws of Newton and Fundamental Forces

Explores Newton's laws, fundamental forces, and exercises on these topics.

Mechanics: Moments and Rotations

Covers the calculation of total forces moments and the concept of rigid bodies.