Most of it.
The core of an Atom is called the nucleus, it has all the atom's Protons and Neutrons in it. Neutrons are very slightly heavier than Protons and together they are most of the mass.
Outside of the nucleus there are the electrons, they have a negative charge to balance the Protons but very little mass, only about 1/2000 of the weight of a Neutron. SO in short.
Most of it.
Alvah Stokes
The majority of an atom's mass is concentrated in its nucleus, which comprises protons and neutrons. Electrons, which orbit the nucleus, contribute very little to the overall mass of the atom.
The majority of Earth's mass is concentrated in its core, which is composed mostly of iron and nickel. This dense core makes up about 33% of Earth's total mass and accounts for much of the planet's gravitational pull.
One mole of sulfur atoms has a mass of approximately 32 grams. This is based on the molar mass of sulfur, which is 32 g/mol.
The molar mass of sulfur is approximately 32.06 grams/mol. Therefore, 1 mol of sulfur atoms will have a mass of 32.06 grams.
10g of helium has fewer atoms. This is because the atomic mass of helium is much higher than that of hydrogen, so the same mass of helium contains fewer atoms than the same mass of hydrogen.
To calculate the grams of zinc containing 6x10^23 atoms, we need to determine the molar mass of zinc, which is approximately 65.38 g/mol. Then, we can use Avogadro's number to find the number of moles (n) of zinc atoms: n = (6x10^23 atoms) / (6.022x10^23 atoms/mol). Finally, we can calculate the mass of zinc: mass = n x molar mass.
The core is 33% of the Earths mass
one third
50%
Jupiter's central core is much hotter than earth because the mass compresses more the more mass compress and the more mass a planet has, the hotter it is.
An electron has a much smaller mass than any atom.
Some of the core's heat comes from the breakdown of radioactive atoms. Much of the heat energy is left over from when Earth first formed.
No, the atomic mass of an element represents the average mass of all the isotopes of that element taking into account their abundance. It does not indicate the number of atoms present in the element; that is determined by Avogadro's number and the molar mass.
To find the total amount of tin (Sn) in 1462 atoms, you would need to multiply the number of atoms by the atomic mass of tin (Sn), which is approximately 118.71 grams per mole. However, you also need to divide by Avogadro's number (6.022 x 10^23 atoms per mole) to convert from atoms to grams.
Some of the core's heat comes from the breakdown of radioactive atoms. Much of the heat energy is left over from when Earth first formed.
Yes, in general. All hydrogen atoms contain one proton, most with no neutrons and all neutral atoms with one electron - and the electron has a much smaller mass. Some hydrogen atoms contain one (or, rarely, two) neutrons and so are heavier. But on average the atom has a mass much the same as a proton.
Yes, there is hydrogen in the hydrosphere. However, hydrogen is typically found bonded with other elements like oxygen in water molecules (H2O) rather than existing in its elemental form.
the mass of the core is 11%,6,787 km in diamiter