Lectures related to Fluid Mechanics: Ludion Experiment

Hydrostatics: Pressure and Archimedes' Principle

Explores hydrostatics, pressure units, forces in fluids, and Archimedes' principle, emphasizing buoyancy and upthrust force calculations.

Fluid Forces: Surface and Buoyancy

Covers fluid forces on surfaces, Archimedes' principle, and Bernoulli's equation.

Buoyancy: Concepts of Fluid Mechanics

Explores pressure variation, buoyant force calculation, Archimedes' principle, pressure experiments, and height-dependent pressures in fluid mechanics.

Compression: Prefix-Free Codes

Explains prefix-free codes for efficient data compression and the significance of uniquely decodable codes.

Neural Signal Compression

Explores analog-to-digital conversion, neural signal optimization, multichannel architectures, and on-chip compression techniques in neuroengineering.

Principle of Archimedes: Examples and Experiments

Explains Archimedes' principle, demonstrating different forces on submerged bodies and providing practical examples.

Hydrostatic Pressure: Theory and Applications

Explores hydrostatic pressure theory, Archimedes' principle, force density, and surface tension.

Fluid Mechanics: Hydrostatics and Archimedes' Principle

Explores hydrostatics, Archimedes' principle, and fluid mechanics, focusing on pressure, dynamics, and cohesive forces.

Buoyancy and Fluid Forces: Definitions, Principles, and Calculations

Explores compressibility, Archimedes' principle, pressure variation, isotropic pressures, buoyancy force calculation, and laminar to turbulent flow transition.

Archimedes' Principle: Pressure and Buoyancy

Covers Archimedes' principle, pressure variation with depth, and buoyancy in fluids.

Dynamics: Archimedes' Principle

Explains Newton's laws, momentum, and Archimedes' principle, illustrating how objects float or sink in fluids.

Principal Component Analysis: Dimensionality Reduction

Covers Principal Component Analysis for dimensionality reduction, exploring its applications, limitations, and importance of choosing the right components.

Data Compression: Shannon-Fano Algorithm

Explores the Shannon-Fano algorithm for efficient data compression and its applications in lossless and lossy compression techniques.

Hydrostatics: Pressure, Fluid Mechanics, Cohesion Forces

Delves into hydrostatics, focusing on pressure, fluid mechanics, and cohesion forces in liquids.

Pressure Distribution in Fluids

Explores pressure distribution in fluids, emphasizing assumptions' role in simplifying equations.

Hydrostatics: Pressure and Archimedes' Principle

Explores hydrostatics, pressure calculations, buoyancy, and Archimedes' principle in fluids.

Mohr Circle: Stress Analysis

Explains stress analysis using Mohr circles and strain energy concepts.

JPEG 2000: Image Compression

Explores image compression principles, focusing on JPEG 2000, covering transform-based coding, quantization, entropy coding, region of interest, error resilience, and software implementations.

Hydraulic Systems: Pressure and Equilibrium

Explores hydraulic systems, pressure calculations, and fluid equilibrium in closed systems.

Data Compression and Shannon-Fano Algorithm

Explores the Shannon-Fano algorithm for data compression and its efficiency in creating unique binary codes for letters.