Introductory Physics Roadmap
Plan your learning journey with our structured roadmap. Navigate through levels from Beginner to Master, ensuring a comprehensive understanding of introductory physics.
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Beginner
- Units and Dimensions
- Vectors and Scalars
- Kinematics in One Dimension
- Kinematics in Two Dimensions
- Newton's Laws of Motion
- Work and Energy
- Conservation of Energy
- Momentum and Impulse
- Conservation of Momentum
- Rotational Motion: Kinematics
- Rotational Motion: Dynamics
- Torque and Angular Momentum
- Gravitation
- Fluid Statics
- Fluid Dynamics
- Temperature and Heat
- Thermodynamics: First Law
- Thermodynamics: Second Law
- Kinetic Theory of Gases
- Oscillations: Simple Harmonic Motion
- Waves: Mechanical Waves
- Sound Waves
- Electric Charge and Electric Fields
- Gauss's Law
- Electric Potential
- Capacitance
- Current and Resistance
- Direct Current Circuits
- Magnetic Fields
- Sources of Magnetic Field
- Electromagnetic Induction
- Inductance
- Alternating Current Circuits
- Electromagnetic Waves
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Intermediate
- Rotational Dynamics: Moment of Inertia
- Rotational Dynamics: Angular Momentum Conservation
- Equilibrium and Elasticity
- Mechanical Properties of Solids
- Thermodynamics: Third Law
- Heat Transfer: Conduction, Convection, Radiation
- Thermodynamic Processes
- Entropy and Statistical Mechanics
- Superposition and Interference of Waves
- Diffraction
- Polarization of Light
- Geometric Optics: Reflection and Refraction
- Optical Instruments
- Electric Potential Energy
- Dielectrics and Capacitors
- RC Circuits
- RL Circuits
- RLC Circuits
- Maxwell's Equations in Integral Form
- Maxwell's Equations in Differential Form
- Relativistic Kinematics
- Relativistic Dynamics
- Quantum Mechanics: Wave-Particle Duality
- Quantum Mechanics: The Schrödinger Equation
- Atomic Structure and Spectra
- Nuclear Physics: Structure and Decay
- Nuclear Physics: Reactions and Applications
- Solid State Physics: Crystal Structures
- Solid State Physics: Band Theory
- Semiconductors and Devices
- Introduction to Astrophysics
- Cosmology: The Big Bang Model
- Particle Physics: Fundamental Particles
- Particle Physics: Fundamental Interactions
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Advanced
- Lagrangian Mechanics
- Hamiltonian Mechanics
- Statistical Mechanics: Ensembles
- Statistical Mechanics: Phase Transitions
- Quantum Field Theory: Introduction
- General Relativity: Field Equations
- General Relativity: Black Holes
- Cosmology: Inflation and Dark Energy
- Condensed Matter Physics: Superconductivity
- Condensed Matter Physics: Magnetism
- Non-linear Dynamics and Chaos Theory
- Computational Physics: Numerical Methods
- Computational Physics: Simulations
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Expert
- Quantum Field Theory: Renormalization
- Quantum Field Theory: Gauge Theories
- String Theory: Introduction
- Cosmology: Cosmic Microwave Background
- Astrophysics: Stellar Evolution
- Astrophysics: Galactic Dynamics
- High Energy Physics: Standard Model
- High Energy Physics: Beyond the Standard Model
- Biophysics: Molecular Motors
- Biophysics: Biological Membranes
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Master
- Quantum Gravity: Loop Quantum Gravity
- Quantum Gravity: String Theory Landscape
- Cosmology: Large Scale Structure Formation
- Astrophysics: Gravitational Waves
- Particle Physics: Neutrino Physics
- Topological Quantum Computing
- Advanced Topics in Quantum Information Theory
- Emergent Phenomena in Complex Systems
- Foundations of Quantum Mechanics: Interpretations
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