Concept

Dimensional analysis

Related lectures (30)

Explores dimensional analysis, scaling laws, physical similarity, and the interdependency of variables in physical systems.

Kinematic Quantities and Linear Mass Density

Discusses kinematic quantities and linear mass density in examples of metal wires.

Dimensional Analysis: Fundamentals and Applications

Covers dimensional analysis fundamentals and applications in scientific and engineering problems, including estimating atom size using Schrödinger's equation.

Advanced Physics I: Orders of Magnitude

Explores the triumph of determinism in modern mechanics and the methodology of scientific development, with practical exercises on estimating surgical mask usage and analyzing atomic bomb energy.

Understanding Dimensionless Groups

Explores dimensionless groups' significance in analyzing physical systems and problem-solving, emphasizing their role in characterizing complex systems.

Calculus of Variations: Euler's Elastica

Covers Euler's Elastica and the equilibrium shape of a bent beam using variational/energy methods.

Dimensional Analysis: Importance and Application

Explores the importance of dimensional analysis in quantifying physical quantities and solving engineering problems, emphasizing observer independence and fundamental equations.

Dimensional Analysis and Scalings

Covers fundamental concepts of dimensional analysis, physical similarity, and scalings, exploring the importance of expressing physical laws independently of units and the process of parameterizing problems.

Dimensional Analysis & Scaling Laws

Explores fundamental physical dimensions, dimensional analysis, scaling laws, and the behavior of slender structures and thin beams.

Physical Quantities and Units

Covers physical quantities, units, symbols, SI fundamental units, and graphical representation of electrical components.

Stability of Equilibrium States

Explores the stability of equilibrium states in structural mechanics, focusing on internal loads, the principle of superposition, and equilibrium conditions.

Dimensional Analysis: Scaling and Theorems

Explores dimensional analysis, scaling, and the Buckingham theorem in analyzing physical systems.

Angular Momentum and Torque

Covers the definitions of angular momentum and torque, and their relationship in the angular momentum theorem.

Resonant Sensors: Mass Flow and Measurement

Explores resonant sensors for mass flow and measurement, emphasizing stability and precision.

Dimensional Analysis & Modelling

Explores dimensional analysis, pi-theorem, modeling, and gravitational effects in open channel flow.

Monte Carlo Simulation of 2D Spin Systems

Explores Monte Carlo simulation of 2D spin systems and the Ising model.

Introduction to Metrology

Covers nanoscale metrology, optical microscopy, atomic force microscopy, electron microscopy, and the redefinition of units.

Microfabrication Techniques: Inspection and Metrology

Explores microfabrication techniques for inspection and metrology in MEMS applications.

Monte Carlo Simulation: 2D Spin Systems

Covers the Monte Carlo simulation of 2D spin systems and the Ising model, including physical quantities of interest and computational challenges.

Dynamic Similarity in Hydrodynamics

Explores dynamic similarity in hydrodynamics, covering scaling forces, wake dynamics, drag influence, and non-dimensional relations in fluid flow.