One interesting fact is that a person is closer in size to the observable universe than to the smallest thing known to us, the Planck length, which is considered the smallest length, and if you increase the Planck length to the size of a person of average height, then a person will be 205 million times larger than the observable universe.
@barrettkoan9757 a person is closer in size to the observable universe than to the Planck length, since the size of the Planck length is ~10^-35 m (1.6*10^-35 m), a person is ~10^0 m (1.7*10^0 m or 1.7 m), and the observable universe is ~10^27 m (8.8*10^26 m or 93 billion light years (9.3*10^10 light years)). If we take approximate figures, then we are about 100 million times larger than the observable universe compared to us, and that's what they usually say, but I decided to write exact figures, namely 205 million, taking into account that the average human height is 1.7 m or 170 cm.
Some Planets you forgot: TrES-2 b / Wasp-12 b / HD 100546 b / J1407 b / and KOI-115.03 and so as all of the exoplanets / The Star Comparison is good enough but you also forgot pulsars. the rest is good. but you can try a remake of this and get tons of views someday.
Zwischendurch hapert es aber gewaltig mit den Größendarstellungen. Pluto Durchmesser ist nur geringfügig größer als der von Eris, seine Darstellung ist aber deutlich größer. Dafür werden der Omega-Nebel (15 ly) und der Oreon-Nebel (24 ly) nahezu gleich groß dargestellt. Und es fehlen die schwarzen Löcher.