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Dynamics of the Universe in Problems

The total number of problems on this website.



There are thousands of websites with names that contain the term “cosmology”. Many of them are devoted to discussion of fundamental questions: whether there is life on Mars, what was there when there was nothing and the like. Our aim is much more modest. We present here an online living version of our book of problems on cosmology.

Why problems, which and for whom?

The only way to rise above the “popular” level in any science is to master its alphabet, that is, to learn to solve problems, even if most simple at the beginning. To our best knowledge, there are no problem books on cosmology yet, that would include its spectacular recent achievements. Of course, most of excellent modern textbooks on cosmology include problems. However, a reader, exhausted by high theory, may often be thwarted by the lack of time and strength to solve them.

You can familiarize oneself with the modern portrayal of the dynamics of the Universe, including the latest achievements of cosmology, by solving problems from the start. The perseverant will traverse the thorny path of cosmology’s evolution from the traditional Big Bang model to the presently universally accepted Standard Cosmological Model. It is based on the revolutionary discovery of accelerated expansion of the Universe, made at the very end of the last century. The attempts to explain such an unexpected observation led to fundamental reconstruction of the view on the evolution of the Universe that was formed in the XX century.

One only has to be acquainted with the basics of Special and General Relativities and the theory of elementary particles in order to start solving problems. We want to show that even this minimal knowledge is sufficient to be able to solve a very wide range of cosmological problems, and moreover, to understand the essence of difficulties that are encountered by modern cosmology.

No generation of Homo sapiens could withstand the temptation to claim that the true understanding of the nature of the Universe is (almost?) within its grasp. The current generation is not an exception, of course, naturally assuming it has better reason to believe so than ever before. We hope to give our reader the means to evaluate objectively whether this is true or not by himself.

Second life online

We published the first edition of the problem book a couple of years ago, in Russian. However, a printed book, even not taking into account the language, has its obvious drawbacks in itself. The audience is limited by the number of copies printed. The inevitable misprints and errors cannot be corrected – the errors in classical problem books on physics are known to be sometimes corrected in the fifteenth edition. But the main problem that almost immediately manifested itself was that the content of the book with pretentious title “Modern Cosmology” was getting out of date by leaps and bounds. New sections and subsections demanded to be created and populated with problems. The online living problem book is the solution we have come to.

At the moment we have about 1500 problems, almost all of them with solutions, and we hope to bring them online by the fall of 2012. We tried to make references to the authors of problems whenever possible and would be happy to add the references that might still be missing. Some problems have already acquired the status of folklore and their authorship is hard to determine. We welcome all comments, suggestions and corrections to the formulations of problems and their solutions, but most valuable to us would be new problems suggested by the community.

Good luck

Finally, we hope that after getting to grip with the problems our reader not only preserves his interest to cosmology, but tries to make the next step: read original papers. If this transition is overcome seamlessly, we will have achieved our goal.



1. Cosmo warm-up

  1.1 Astronomy "before the Common Era"
  1.2 Quantities large and small
  1.3 Geometric warm-up
  1.4 Astrophysical warm-up
  1.5 Planck scales and fundamental constants  $c$, $G$, $\hbar$
  1.6 Gravity
  1.7 Forest for the trees
  1.8 Life on Mars?
      1.8.1 Fine-tuning of the Universe
  1.9 Thermo warm-up

2. Dynamics of the Expanding Universe

  2.1 Homogeneous and isotropic Universe, Hubble's Law
  2.2 Equations of General Relativity
  2.3 Friedman-Lemaître-Robertson-Walker (FLRW) metric
  2.4 Expanding Universe: ordinarity, difficulties and paradoxes
      2.4.1 Warm-up
      2.4.2 The tethered galaxy problem
      2.4.3 Cosmological redshift
  2.5 Friedman equations
  2.6 Newtonian cosmology
  2.7 Energy balance in an expanding Universe
  2.8 Cosmography
  2.9 Light and distances

3. Dynamics of the Universe in the Big Bang Model

  3.1 General questions
  3.2 Solutions of Friedman equations in the Big Bang model
  3.3 Polytropic equation of state
  3.4 The role of curvature in the dynamics of the Universe
  3.5 The Milne Universe
  3.6 Cosmological horizons
  3.7 Energy conditions and the Raychaudhuri equation
      3.6.1 Energy conditions
      3.6.2 Raychaudhuri equation
      3.6.2 Sudden future singularities
  3.8 Influence of cosmological expansion on local systems
  3.9 Dynamics of the Universe in terms of redshift and conformal time

4. Black Holes

  4.1 Technical warm-up
      4.1.1 Uniformly accelerated observer, Rindler metric
      4.1.2 Metric in curved spacetime
  4.2 Schwarzschild black hole
      4.2.1 Simple problems
      4.2.2 Symmetries and integrals of motion
      4.2.3 Radial motion
      4.2.4 Blackness of black holes
      4.2.5 Orbital motion, effective potential
      4.2.6 Miscellaneous problems
      4.2.7 Different coordinates, maximal extension
  4.3 Kerr black hole
      4.3.1 General axially symmetric metric
      4.3.2 Limiting cases
      4.3.3 Horizons and singularity
      4.3.4 Stationary limit
      4.3.5 Ergosphere and the Penrose process
      4.3.6 Integrals of motion
      4.3.7 The laws of mechanics of black holes
      4.3.8 Particles' motion in the equatorial plane   
  4.4 Particles' motion in general black hole spacetimes
      4.4.1 Frames, time intervals and distances
      4.4.2 Fiducial observers
      4.4.3 Collision of particles: general relationships
  4.5 Astrophysical black holes
      4.5.1 Preliminary
      4.5.2 Quantum effects

5. Cosmic Microwave Background (CMB)

  5.1 Thermodynamics of Black-Body Radiation
  5.2 Time Evolution of CMB
  5.3 Statistical properties of CMB
  5.4 Primary anisotropy of CMB
  5.5 CMB interaction with other components
  5.6 Extras

6. Thermodynamics of Universe

  6.1 Thermodynamical Properties of Elementary Particles
  6.2 Thermodynamics of Non-Relativistic Gas
  6.3 Entropy of Expanding Universe
  6.4 Connection between Temperature and Redshift
  6.5 Peculiarities of Thermodynamics in Early Universe
  6.6 The Saha equation
  6.7 Primary Nucleosynthesis
  6.8 Extras

9. Dark Energy

  9.1 The Cosmological Constant
  9.2 Geometry and Destiny
  9.3 Time-dependent Cosmological Constant
  9.4 Static Einstein's Universe
  9.5 Dynamical Forms of Dark Energy
      9.5.1 The Quintessence
      9.5.2 The K-essence
      9.5.3 Phantom Energy
      9.5.4 Disintegration of Bound Structures
      9.5.5 Big Rip, Pseudo Rip, Little Rip
      9.5.6 The Statefinder
      9.5.7 Crossing the Phantom Divide
  9.6 Lost and Found

10. Dark Matter

  10.1 Observational Evidence of the Dark matter Existence
  10.3 Dark Matter Halo
  10.4 Candidates for Dark Matter Particles
       10.4.1 Standard Model Particles as Dark Matter Candidates
       10.4.2 Supersymmetric Candidate Particles
  10.5 Dark Matter Detection
  10.6 The Dark Matter in the Solar System
  10.7 The Dark Stars
  10.8 Interactions in the Dark Sector
       10.8.1 General Analysis
       10.8.2 Linear Models
       10.8.3 Non-linear Models
       10.8.4 The Chaplygin Gas
       10.8.5 Universe as the Dynamical System

11. Standard Cosmological Model

  11.1 Characteristic Parameters and Scales
  11.2 Evolution of Universe

12. Weak field limit and gravitational waves

  12.1 Motivation and symmetries / Introduction
  12.2 Linearized Einstein equations
  12.3 Gauge transformations and degrees of freedom
  12.4 Wave equation
  12.5 Transverse traceless gauge
  12.6 Gravitational waves and matter
  12.7 Energy of gravitational waves
  12.8 Binary systems
  12.9 Gravitational Waves: scale of the phenomenon
  12.10 Generation and detection of gravitational waves

13. Observational cosmology

  13.1 Point gravitational lenses
  13.2 Microlensing and weak lensing

14. Holographic Universe

  14.1 Information, Entropy and Holographic Screen