Lectures related to Mechanical Construction I: Axonometric Projections and Standardization

Mechanical Construction I: Projections and Standards

Introduces mechanical construction basics, including projections, intersections, and the history of standardization and measurement units.

Mechanical Construction I: Views and Projections

Covers the basics of mechanical construction, focusing on views correspondence, pivot lines usage, and axonometric projections.

Mechanical Construction I: Views Correspondence and Axonometric Projections

Covers views correspondence, axonometric projections, and intersections in mechanical drawings.

Mechanical Construction Basics

Introduces the basics of mechanical construction, technical drawings, and standardization in technical communication.

Mechanical Design Principles: Technical Drawing and Projections

Introduces mechanical design principles, focusing on technical drawing and projection methods essential for accurate representation in engineering.

Technical Drawing: Fundamentals and Applications

Covers the basics of technical drawing, including projections, standardized norms, and challenges in incomplete drawings.

Mechanical Design Fundamentals: Technical Drawing

Covers the basics of technical drawing in mechanical design.

Revision of the SI: International System of Units

Explores the revision of the International System of Units, focusing on the kilogram, ampere, kelvin, and mole, and the impact on scientific measurements.

Introduction to Metrology

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

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Mechanical Construction Basics

Introduces the basics of mechanical construction, focusing on international standards, drawing frameworks, and graphical elements.

Understanding Units and the SI System

Explores the importance of units, the development of the SI system, and the shift towards defining units based on physical constants.

Victory of Determinism

Explores the triumph of determinism in mechanics, the significance of measurements in physics, and the International System of Units.

Mechanical Design Principles: Projections and Representations

Introduces mechanical design principles, focusing on projections, cuts, sections, and dimensioning techniques for technical drawings.

Physics: Vector Norms and Orthonormal Systems

Covers vector norms, orthonormal systems, direction, and velocity in physics.

Geometrical Product Specifications: Datums and Datum Systems

Explores international standardization, technical drawing rules, and specific representations in mechanical construction.

Minkowski Spacetime: Systems of Units

Introduces Minkowski spacetime, 4-vectors, physical quantities, SI units, Planck units, and HEP units.

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True Sizes: Folding Method in Descriptive Geometry

Explains the folding method in descriptive geometry to determine true sizes of segments and distances between points.

Experimental Physics: Measurement and Precision

Discusses the importance of measurement and precision in experimental physics.