Yeah I think so because realy everything has its own colour so yeah element atoms have their own colour
no the color doesn't have anything to do with the electronegativity
Every element has its own kind of atom, identifiable from atoms of another element by its number of protons.
An atom is not an element on its own. Think of it as a building block for every element in existence. Atoms are what make up the elements.
Iron pellets are not a compound or an element on their own. They are a form of iron that consists of multiple iron atoms bonded together. Iron itself is an element, but when it is in the form of pellets, it is a physical mixture of iron atoms.
Oxygen is an element in its own right, so it only contains one element: oxygen.
no the color doesn't have anything to do with the electronegativity
Zero. Oxygen is an element.
Every element has its own kind of atom, identifiable from atoms of another element by its number of protons.
An atom is not an element on its own. Think of it as a building block for every element in existence. Atoms are what make up the elements.
Iodine is not a compound. It is an element. Therefore, it has its own atoms: Iodine atoms.
The number of protons in the nuclei of their atoms. This is the atomic number of an element and each element has its own unique atomic number.
Atomic number is the number of protons in the atoms of a particular element. Each element has its own unique atomic number.
Iron pellets are not a compound or an element on their own. They are a form of iron that consists of multiple iron atoms bonded together. Iron itself is an element, but when it is in the form of pellets, it is a physical mixture of iron atoms.
atomic number of an atom is its own characteristic property,ie.the number of protons or electrons in an atom,which distinguishes atoms from one another
Sulfur. The blue color of lazurite comes from the presence of sulfur atoms within its crystal structure.
Compound
There are no "atoms in an element," but rather atoms OF an element. If you are trying to find the number of atoms in a sample of a pure element you divide its weight by its molar mass and then multiply by 6.022 x 10^23 to get the answer in atoms. The answer options are 2,3, or 4.