Engineering Fundamentals

Foundational Physical Sciences

2.1.

Physics

2.1.1.

Units, Dimensions, and Measurement

2.1.1.1.

SI Units and Conversions

2.1.1.2.

2.1.1.3.

2.1.1.4.

2.1.2.

2.1.2.1.

2.1.2.1.1.

Motion in One Dimension

2.1.2.1.2.

Motion in Two Dimensions

2.1.2.1.3.

Motion in Three Dimensions

2.1.2.1.4.

2.1.2.1.5.

2.1.2.1.6.

2.1.2.1.7.

2.1.2.1.8.

2.1.2.2.

Newton's Laws of Motion

2.1.2.2.1.

2.1.2.2.2.

2.1.2.2.3.

2.1.2.2.4.

2.1.2.3.

Work, Energy, and Power

2.1.2.3.1.

2.1.2.3.2.

2.1.2.3.3.

2.1.2.3.4.

2.1.2.3.5.

Conservation of Energy

2.1.2.3.6.

Power

2.1.2.3.7.

Efficiency

2.1.2.4.

Momentum and Collisions

2.1.2.4.1.

Linear Momentum

2.1.2.4.2.

Conservation of Linear Momentum

2.1.2.4.3.

2.1.2.4.4.

2.1.2.4.5.

2.1.2.5.

2.1.2.5.1.

2.1.2.5.2.

2.1.2.5.3.

2.1.2.5.4.

2.1.2.5.5.

2.1.2.5.6.

Rotational Kinetic Energy

2.1.2.5.7.

Angular Momentum

2.1.2.5.8.

Conservation of Angular Momentum

2.1.2.6.

Oscillations and Waves

2.1.2.6.1.

Simple Harmonic Motion

2.1.2.6.2.

2.1.2.6.3.

2.1.2.6.4.

2.1.2.6.5.

2.1.2.6.6.

2.1.2.6.7.

2.1.2.6.8.

2.1.3.

Electricity and Magnetism

2.1.3.1.

Electric Charge and Coulomb's Law

2.1.3.2.

2.1.3.2.1.

2.1.3.2.2.

2.1.3.2.3.

2.1.3.3.

2.1.3.3.1.

2.1.3.3.2.

Equipotential Surfaces

2.1.3.4.

Capacitance and Dielectrics

2.1.3.4.1.

Parallel Plate Capacitor

2.1.3.4.2.

Energy Stored in Capacitors

2.1.3.5.

Current, Resistance, and Ohm's Law

2.1.3.5.1.

Electric Current

2.1.3.5.2.

Resistance

2.1.3.5.3.

Resistivity

2.1.3.5.4.

Temperature Dependence

2.1.3.6.

Direct Current Circuits

2.1.3.6.1.

Series Circuits

2.1.3.6.2.

Parallel Circuits

2.1.3.6.3.

Kirchhoff's Laws

2.1.3.6.4.

Circuit Analysis Techniques

2.1.3.7.

Magnetic Fields and Forces

2.1.3.7.1.

Magnetic Force on Moving Charges

2.1.3.7.2.

Magnetic Force on Current-Carrying Wires

2.1.3.8.

Sources of Magnetic Field

2.1.3.8.1.

Biot-Savart Law

2.1.3.8.2.

Ampere's Law

2.1.3.9.

Electromagnetic Induction

2.1.3.9.1.

2.1.3.9.2.

2.1.3.9.3.

2.1.3.10.

2.1.3.10.1.

2.1.3.10.2.

2.1.3.10.3.

Energy Stored in Inductors

2.1.3.11.

Alternating Current Circuits

2.1.3.11.1.

2.1.3.11.2.

2.1.3.11.3.

2.1.3.11.4.

2.1.3.12.

2.1.3.12.1.

Gauss's Law for Electricity

2.1.3.12.2.

Gauss's Law for Magnetism

2.1.3.12.3.

Faraday's Law of Induction

2.1.3.12.4.

2.1.4.

2.1.4.1.

2.1.4.1.1.

2.1.4.1.2.

2.1.4.1.3.

Heat Transfer Mechanisms

2.1.4.1.3.1.

Conduction

2.1.4.1.3.2.

Convection

2.1.4.1.3.3.

Radiation

2.1.4.2.

First Law of Thermodynamics

2.1.4.2.1.

Internal Energy

2.1.4.2.2.

Work in Thermodynamic Processes

2.1.4.2.3.

Heat in Thermodynamic Processes

2.1.4.2.4.

Specific Heats

2.1.4.3.

Second Law of Thermodynamics and Entropy

2.1.4.3.1.

Spontaneous Processes

2.1.4.3.2.

2.1.4.3.3.

2.1.4.3.4.

2.1.4.3.5.

2.1.4.3.6.

Coefficient of Performance

2.1.4.4.

2.1.4.4.1.

2.1.4.4.2.

2.1.5.

2.1.5.1.

Quantum Mechanics Fundamentals

2.1.5.1.1.

Wave-Particle Duality

2.1.5.1.2.

Uncertainty Principle

2.1.5.1.3.

2.1.5.2.

2.1.5.2.1.

2.1.5.2.2.

2.1.5.2.3.

2.1.5.3.

2.1.5.3.1.

2.1.5.3.2.

2.1.5.3.3.

2.2.

2.2.1.

Atomic Structure and Periodicity

2.2.1.1.

Structure of the Atom

2.2.1.2.

Electron Configuration

2.2.1.3.

Periodic Table Trends

2.2.2.

Chemical Bonding and Molecular Geometry

2.2.2.1.

2.2.2.2.

2.2.2.3.

2.2.2.4.

2.2.2.5.

Polarity of Molecules

2.2.3.

Stoichiometry

2.2.3.1.

Balancing Chemical Equations

2.2.3.2.

2.2.3.3.

2.2.3.4.

2.2.3.5.

2.2.4.

2.2.4.1.

2.2.4.2.

2.2.4.2.1.

2.2.4.2.2.

2.2.4.2.3.

2.2.4.2.4.

2.2.4.2.5.

2.2.4.3.

2.2.4.4.

2.2.5.

Chemical Thermodynamics

2.2.5.1.

Enthalpy

2.2.5.2.

Entropy

2.2.5.3.

Gibbs Free Energy

2.2.5.4.

Spontaneity of Reactions

2.2.6.

Chemical Kinetics

2.2.6.1.

Reaction Rates

2.2.6.2.

Rate Laws

2.2.6.3.

Factors Affecting Reaction Rate

2.2.6.4.

2.2.6.5.

2.2.7.

2.2.7.1.

2.2.7.2.

Le Chatelier's Principle

2.2.7.3.

Acid-Base Equilibria

2.2.7.4.

Solubility Equilibria

2.2.8.

Electrochemistry

2.2.8.1.

Galvanic Cells

2.2.8.2.

Standard Electrode Potentials

2.2.8.3.

Electrolysis

2.2.8.4.

Corrosion

2.2.8.5.

Batteries and Fuel Cells

1. Foundational Mathematics for Engineering

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3. Core Engineering Sciences