100%, if you round to the nearest percent... From Wikipedia: "... accounting for about 99.86% of the total mass of the Solar System".
It has to do with the formation of the solar system. Since all of the matter that condensed into what makes the solar system bodies was spinning in the same direction while coming together, it would have taken a drastic event to cause one of the bodies to orbit in a different direction.
Condensed clouds of interstellar gas that originally assembled from the remnants of nova or supernova stellar explosions that occurred many eons before our Solar System was formed.
Liquids.
Hydrogen and helium were the two primary gases present during the formation of our solar system. These gases dominated the early solar nebula from which the Sun and the planets eventually condensed.
in the center
Around 99.5%
A model for the solar system in which the sun and planets condensed from a cloud (or nebula) of gas and dust
The answer depends on the context: Do you want: frozen water as a percentage of all water on earth? frozen water as a percentage of all matter on earth? frozen water as a percentage of all water in the solar system, or beyond? frozen water as a percentage of all matter in the solar system, or beyond? There are other possible interpretations.
Because it was the centre of coalescence/mass round which the solar nebular condensed.
Jupiter contains about 70% of the total planetary mass in our solar system, making it by far the most massive planet. It is primarily composed of hydrogen and helium, the most abundant elements in the universe.
It has to do with the formation of the solar system. Since all of the matter that condensed into what makes the solar system bodies was spinning in the same direction while coming together, it would have taken a drastic event to cause one of the bodies to orbit in a different direction.
It has to do with the formation of the solar system. Since all of the matter that condensed into what makes the solar system bodies was spinning in the same direction while coming together, it would have taken a drastic event to cause one of the bodies to orbit in a different direction.
It has to do with the formation of the solar system. Since all of the matter that condensed into what makes the solar system bodies was spinning in the same direction while coming together, it would have taken a drastic event to cause one of the bodies to orbit in a different direction.
The Solar System formed from a cloud of gas, that collapsed.
99 percent of all of the matter in the Solar System is contained in the Sun.
Plasma
Condensed clouds of interstellar gas that originally assembled from the remnants of nova or supernova stellar explosions that occurred many eons before our Solar System was formed.