Yes. Atoms of two different elements are always different.
Glass and aluminum have some similarities but they are hardly the same.
Al(OH)3 One atom of aluminum. Three atoms of oxygen. Three atoms of hydrogen.
As an element, silver has several isotopes (with different numbers of neutrons) but all atoms of an isotope will be identical, i.e. all atoms of the isotope 107Ag will be equivalent (look the same), all atoms of 109Ag will be equivalent - but atoms of 107Ag will be different from atoms of 109Ag. To the naked eye, there is no difference in the appearance of ordinary silver (silver-107 or silver-109) and that of its synthetic radioactive isotopes (mainly silver-105, 106, 108, 111).
The number of atoms in 1,2 moles of pure aluminum is 7,2265690284.1023.
1,46 moles of aluminum fluoride contain 35,16848.10e23 atoms.
3.20 moles aluminum (6.022 X 1023/1 mole Al) = 1.93 X 1024 atoms of aluminum -------------------------------------------
Silver is an element, pure silver would contain only silver atoms.
aluminum has a silver colour attributed to the metallic bond by which its atoms bond together
Al(OH)3 One atom of aluminum. Three atoms of oxygen. Three atoms of hydrogen.
Gold & Silver are different because they have different numbers of protons and electrons in their atoms.
Aluminum is an element. It is made entirely of aluminum atoms.
Aluminum carbide contains two different kinds of atoms: aluminum and carbon. The formula unit or molecular formula for aluminum carbide is Al4C3.
yes, all aluminum atoms have the same number of protons. The number of protons in an atom give it its identity. Isotopes are different atoms of the same element with the same number of protons, but a different number of neutrons.
2 aluminum atoms 4 sulphur atoms 4 oxygen atoms
As an element, silver has several isotopes (with different numbers of neutrons) but all atoms of an isotope will be identical, i.e. all atoms of the isotope 107Ag will be equivalent (look the same), all atoms of 109Ag will be equivalent - but atoms of 107Ag will be different from atoms of 109Ag. To the naked eye, there is no difference in the appearance of ordinary silver (silver-107 or silver-109) and that of its synthetic radioactive isotopes (mainly silver-105, 106, 108, 111).
Silver has fewer atoms. When energy is added, each atom of silver gets more energy than each atom of aluminum because there are fewer silver atoms in a kilogram. Because the energy per atom is greater, the temperature increases in the silver are also greater
The formula would be AlCl3, which is aluminum chloride.
Gold, silver, copper, and aluminum are a few different metals.