Black holes. they can hold an infinite amount of things and remain the size of a pin head.
Black holes may the most dense objects in the universe, yet they have a limit to what they can hold.
A neutron star. The gravitational pressure is so great that the electrons in the atoms have been crushed into the atomic nuclei, combining with the protons there (which are equal in number) to form neutrons, so the star is basically solid nuclear matter. Remember that in ordinary atoms most is empty space with the nucleus occupying only a tiny fraction of the atomic volume.
The Sun. The Sun has 330,000 times the mass of Earth, and about 1000 times the mass of Jupiter - the most massive object in the Solar System after the Sun. Gravitational pull is directly proportional to the mass
Black hole singularities are the most dense objects known to man. They concentrate any amount of mass in a volume so small as to near zero, creating near infinite densities.
Next comes quagma. Quagma is a state of matter where matter is so compressed that atoms cannot exist, and it becomes a soup of subatomic particles, with virtually no space in between. Such matter could hypothetically be found in the core of neutron stars.
"High" is one of those squishy words that means different things to different people,
and there's no way for me to know where you place the cut-off line. I can tell you,
however, that within the solar system, the planet with the highest density is Earth.
The singularity in the center of a black hole has the highest known density. Its density is essentially infinite for all practical purposes.
A black hole holds a large amount of matter in a volume that's either tiny or zero.
Neptune has the greatest density of the gas giants. It's density is 1.8g/cm3.
The Sun has about 99.86% of the mass of the Solar System, so it will have the greatest amount of gravity.
Earth has the highest density, if thats what you mean.
Mercury is a high density planet. It has the second highest density of all the planets in the solar system.
Density of a planet = (Planet's mass) divided by (Planet's volume)
The planet with the lowest overall density is Saturn.
Saturn is the answer.
The density of a planet depends basically on the density of the materials that make the planet up. It is a weighted average of those densities.
Mercury is a high density planet. It has the second highest density of all the planets in the solar system.
Mercury. Although it has a high density, it's the smallest planet and least massive overall.
Density of a planet = (Planet's mass) divided by (Planet's volume)
Yes, but the planet's density also plays a role.Yes, but the planet's density also plays a role.Yes, but the planet's density also plays a role.Yes, but the planet's density also plays a role.
Certainly - all matter has density. The density of a gas planet would probably be less than that of a more solid planet but it would still have a non-zero density.
Mercury has the second lowest density of any planet in the solar system. Saturn has the lowest density of any other planet.
Earth's density: 5520 kg/m3 Saturn's density: 690 kg/m³
Saturn is the answer.
The planet with the lowest overall density is Saturn.
If they're the same size, then the box with higher density has more mass, and consequently it weighs more when both are on the same planet.
The density of a planet depends basically on the density of the materials that make the planet up. It is a weighted average of those densities.
Uranium has a high density.