Q_1_08 — Observable Universe and Cosmic Web

The observable universe has a diameter of ~93 billion light-years (comoving distance) and contains an estimated 2 trillion galaxies (Conselice et al. 2016), ~10²⁴ stars, and ~10⁸⁰ atoms. But its most striking feature is

Q_1_14 — Vacuum Energy and the Cosmological Constant Problem

The cosmological constant problem is widely regarded as the most severe fine-tuning problem in all of physics. Quantum field theory predicts that the vacuum of spacetime is not empty but seethes with zero-point fluctuati

Q_1_15 — Dark Energy Models and Quintessence

The accelerating expansion of the universe, discovered in 1998 via Type Ia supernovae, demands an explanation. The simplest model — Einstein's cosmological constant Λ with equation of state $w = p/\rho = -1$ exactly — fi

Q_1_23 — White Holes: Theory and Implications

A white hole is the time-reversed analogue of a black hole — a theoretical spacetime region from which matter and light can emerge but into which nothing can enter, as opposed to a black hole's event horizon from which n

Q_1_24 — Cosmic Microwave Background Deep Analysis

The Cosmic Microwave Background (CMB) is the oldest observable electromagnetic radiation in the universe — thermal radiation released approximately 380,000 years after the Big Bang (redshift z ≈ 1,100) when the universe

Q_1_11 — Cosmological Redshift and the Hubble Law

The discovery that distant galaxies' light is systematically shifted toward longer (redder) wavelengths was the first observational evidence that the universe is expanding. Vesto Slipher's spectroscopic measurements (191

Q_1_17 — Modified Gravity Theories (MOND, TeVeS, and Alternatives to Dark Matter)

Modified Newtonian Dynamics (MOND) is a hypothesis proposed by Mordehai Milgrom in 1983 that modifies Newton's second law at very low accelerations (below approximately 1.2 × 10⁻¹⁰ m/s²) to explain galaxy rotation curves

Q_1_00 — Foundations Cosmological Models: Subfolder Summary

Q_1_07 — CMB Anomalies and the Axis of Evil

The Cosmic Microwave Background (CMB) — the afterglow of the Big Bang, emitted ~380,000 years after the universe began — is the most precisely measured radiation in the history of science. It matches the theoretical pred

Q_1_13 — Cosmic Strings and Topological Defects

Cosmic strings are one-dimensional topological defects that may have formed during symmetry-breaking phase transitions in the early universe, analogous to cracks in ice or vortex lines in superfluids. Predicted by Kibble

Q_1_10 — Cosmic Inflation and the First Second

Cosmic inflation — the hypothesis that the universe underwent an exponential expansion in the first 10⁻³⁶ to 10⁻³² seconds after the Big Bang — was proposed by Alan Guth in 1981 to resolve critical problems in standard B

Q_1_01 — The Anthropic Principle & Fine-Tuning of the Universe

The universe appears to be astonishingly fine-tuned for the existence of complex life. Alter the cosmological constant by 1 part in 10¹²⁰, or the strong nuclear force by 0.5%, or the ratio of electromagnetic to gravitati

Q_4_09 — Statistical Mechanics: Boltzmann, Ensembles, and Thermodynamic Emergence

Statistical mechanics is the bridge between the microscopic world of atoms and molecules (governed by classical or quantum mechanics) and the macroscopic world of thermodynamics (governed by temperature, pressure, entrop

Q_4_05 — Modified Gravity Theories

Modified gravity theories propose that the observed discrepancies between luminous matter and gravitational dynamics — traditionally attributed to dark matter — instead result from a breakdown or modification of Newtonia

Q_4_02 — Gravitational Wave Astronomy

Gravitational waves — ripples in spacetime predicted by Einstein's general relativity (1916) and first directly detected by LIGO (Laser Interferometer Gravitational-Wave Observatory) on September 14, 2015 (event GW150914

Q_4_08 — String Theory: Landscape, Extra Dimensions, and M-Theory

String theory is the leading candidate for a unified theory of all fundamental forces and particles — a framework in which the fundamental entities are not point particles but tiny, one-dimensional vibrating strings (ope

Q_4_06 — Baryon Asymmetry and Matter-Antimatter

One of the deepest unsolved problems in physics is the baryon asymmetry of the universe — the observed predominance of matter over antimatter. For every ~10⁹ photons in the cosmic microwave background, there is approxima

Q_4_04 — Neutrino Astronomy and Neutrino Mass

Neutrinos — nearly massless, electrically neutral leptons that interact only via the weak nuclear force and gravity — are among the most abundant particles in the universe (~330/cm³ relic neutrinos from the Big Bang) yet

Q_4_16 — Chandrasekhar Limit: White Dwarf Physics and Stellar Death

The Chandrasekhar limit — approximately 1.4 solar masses ($1.4 \, M_\odot$) — is the maximum mass of a stable white dwarf star, the dense remnant left after a low- or intermediate-mass star (initial mass up to ~8 $M_\odo

Q_4_14 — Laser Physics: Stimulated Emission, Coherence, and Applications

The laser (Light Amplification by Stimulated Emission of Radiation) produces light that is uniquely coherent — the emitted photons march in lockstep in phase, direction, and wavelength, yielding an intense, narrow, monoc