The riddle of the size of the universe has involved scientists ever since the childhood of cosmology. Newton believed that the universe is infinite, while Kepler believed in a finite.

Albert Einstein was the first physicist that gave the concept of a finite universe a sustainable theoretical foundation. The gravity can make space curve so much that the overall structure closes itself in the same way as the surface of a globe. The shape of the universe is depending on how much mass it is in the universe. The density parameter was derived by Alexander Friedmann in 1922 from Einstein's field equations.

$$\Omega =\frac{\rho}{\rho_{c}}$$

where *ρ* is the actual density of the Universe and *ρc* is the critical density.

The critical density is according to Friedmann equations

$$\rho_{c} =\frac{3H^{2}}{8\pi G}$$

where *G *is the gravitational constant 6.674×10−11 m3/(kg⋅s2) and* H *is the Hubble parameter a function of time that tells us how fast the universe is expanding it may be derived from the same equations as

$$H^{2}= \frac{8\pi G \rho }{3}-\frac{kc^{2}}{a}$$

then the density parameter becomes

$$ \Omega = \frac{H^{2}+\frac{kc^{2}}{a}}{H^{2}}$$

where *c* is the speed of light in vacuum and *k* is the curvature constant and *a* is the scale factor

If the density parameter:

- Is bigger than 1 and
*k*equals 1, then the universe is finite and has a spherical shape - Is smaller than 1 and
*k*equals -1, then the universe is infinite or finite and has a hyperbolic shape - Is equal to 1 and
*k*equals 0, then the universe is infinite and is flat

Credit: NASA / WMAP Science Team

The Planck space observatory was a spacecraft operated by the European Space Agency (ESA) from 2009 to 2013 and mapped the cosmic microwave background CMB. CMB is the radiation leftover from the big bang.

Several observations have indicated that the universe is flat and that fits very well with our current theoretical models, but re-analysis of the Planck data shows that we live in a finite spherical universe where the density parameter is bigger than 1

Here is the paper: nature.com

Here is an article about it quantamagazine.org

The density of the universe is according to the article calculated to be about 6 hydrogen atoms per cubic meter of space and the critical density is 5.7 hydrogen atoms per cubic meter of space, which gives the density parameter value of 6/5.7 =1.05.

Enceladus
Hubble
TOI 700 c
TOI 700 d
Tabby star
2MASS J12073346-3932539 b
51 Peg b
55 Cnc e
AB Aurigae
Alcubierre drive
Andromeda
Ariel
Betelgeuse
Blackhole
Cheops
Dyson
EPIC 201238110.02
GJ 1214 b
GJ 3470 b
GJ 581 b
GJ 581 c
GJ 581 e
HAT-P-11 b
HD 209458 b
HD 40307 g
HD 85512 b
HR 8799 b
HR 8799 c
HR 8799 d
HR 8799 e
Jupiter
K2-18 b
KELT-9 b
Kepler 22 b
Kepler-1090 b
Kepler-1606 b
Kepler-1625 b
Kepler-1638 b
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Kepler-1649 c
Kepler-452 b
Kepler-62 e
Kepler-62 f
Mars
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Ross 128 b
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TOI 700 b
TRAPPIST-1 d
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TRAPPIST-1 f
TRAPPIST-1 g
Teegarden b
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Universe
VR
WASP-12 b
WASP-17 b
WASP-19 b
XO-1 b
tau Cet e
tau Cet f