Individual atoms and molecules also exist in outer space, as a kind of very thin gas. Space is not a perfect vacuum. There are also sub-atomic particles, such as cosmic rays, in space.
That fine rocky particle as small as a speck of dust would be classified as silt. Silt is composed of mineral and rock particles that are smaller than sand particles but larger than clay particles.
The smallest size of sediment particle is called clay. Clay particles are smaller than 0.002 mm in diameter.
i think a large droplet is bigger because they say larger
More space dust is attracted to the Sun than to Earth because the Sun's gravity is much stronger due to its larger mass. The Sun's gravitational pull can reach and capture particles from farther away in space. Earth's gravity is not as strong as the Sun's, which is why less space dust is drawn towards our planet.
In a Euclidean space, the shortest distance between two points is a straight line, so no.
There are different ways to view a wave. The most likely is what you suggested. The other would be matter travelling in a wave like pattern as 1 of the types of patterns it would exhibit other than particle nature.
The electron has not other components, it is a fundamental particles. But neutrinos are smaller than the electron.
Yes, a nebula is a vast cloud of gas and dust in space where stars are born, while a black hole is a region in space where the gravitational pull is so strong that nothing, not even light, can escape. They are very different astronomical phenomena.
yes there is stars the sun and at sometimes rocket ships
A "particle" is a small piece of something. It may refer to a speck of dust for example, but the term is especially used to the parts that make up matter, that are smaller than atoms - such as protons, neutrons, electrons, photons, quarks, gluons, etc.
Yes, that is what combines to form new stars, planets, and other objects. Dust and gas, actually. Normally the density of this dust and gas is extremely small; on average, less than the best vacuum that can be achieved on Earth, that is, less atoms per cubic centimeter. However, since this almost-vacuum is spread out over large regions of space, there is still considerable total mass involved, and sometimes it combines to form a new solar system, for example.
No. The spaces between the particles in a gas are much bigger than the particles themselves. The size of a particle does not vary between the states of a substance.