Wrapping it up.
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The study of motion, forces, and energy in physical systems. Classical mechanics describes how objects move under the influence of forces and forms the foundation of physics.
Explore fundamental concepts of motion and forces
Description of motion in terms of displacement, velocity, and acceleration without considering forces.
Newton's laws of motion, friction, circular motion, and gravitational forces.
Work-energy theorem, kinetic and potential energy, conservation laws, and power.
The study of heat, temperature, and energy transfer, and how these affect matter. Thermodynamics governs the behavior of systems in terms of energy flow and transformation.
The study of electric and magnetic fields, their interactions, and electromagnetic waves. This includes electricity, magnetism, and electromagnetic radiation.
Electromagnetism forms the basis for modern technology including electric motors, generators, transformers, wireless communication, and medical imaging devices like MRI machines.
Detailed exploration of electromagnetic concepts
Coulomb's law, electric fields, electric potential, and capacitance.
Magnetic fields, forces on moving charges, electromagnetic induction, and Faraday's law.
The branch of physics that studies the behavior and properties of light, including its interactions with matter and the construction of instruments that use or detect it.
Encompasses relativity, quantum mechanics, nuclear physics, particle physics, and cosmology - the physics developed in the 20th century that revolutionized our understanding of the universe.
Explore revolutionary physics concepts
Wave-particle duality, uncertainty principle, quantum states, and quantum tunneling.
Special relativity (time dilation, length contraction) and general relativity (gravity as curvature of spacetime).
The study of mechanical waves, sound waves, wave interference, diffraction, and resonance phenomena. This includes both sound (acoustics) and other wave phenomena.
The study of atomic nuclei, their components and interactions, nuclear reactions, radioactivity, and nuclear energy applications.
Nuclear physics has applications in medical imaging (PET scans), cancer treatment (radiation therapy), and as a source of clean energy through nuclear power plants.
The study of fluids (liquids and gases) and the forces on them. Includes fluid statics (hydrostatics) and fluid dynamics, describing flow behavior.
The study of rigid matter, or solids, through methods such as quantum mechanics, crystallography, and electromagnetism. This forms the basis for semiconductor physics and materials science.
The application of physics principles to astronomical objects and phenomena. Includes stellar physics, galactic structure, black holes, and the evolution of the universe.
Gravitational wave detection, black hole imaging, exoplanet discovery, and dark matter/energy research are revolutionizing our understanding of the cosmos.
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