monatomic Ion- contains one atom polyatomic ion- contains more than one atom
If a mineral contains more than one element it is called a
"Fluor" is an informal name for a mineral that contains more than one element and therefore does not have any atomic number. The element fluorine has an atomic number of 9.
If the chemical formula contains only one element (such as Mg, K or Cl2) it would be an element. If it contains two or more elements (such as NaCl, CO2 or CuSO4.5H2O) then it would be a compound.
An oxide is a compound that contains oxygen and at least one other element that is less electronegative than oxygen.
Elements that contain only one type of atom are called pure elements or monatomic elements. For example, helium (He), neon (Ne), and oxygen (O) are pure elements because they consist of only one type of atom in their chemical structure.
No element contains more than one element.
If a mineral contains more than one element it is called a
An example of a mineral that contains more than one element is feldspar, which is a group of rock-forming tectosilicate minerals. Feldspar typically contains a combination of elements such as aluminum, silicon, oxygen, potassium, calcium, and sodium in varying proportions.
No. Since it contains more than one type of atom, it is a compound, not an element.
An alloy
Compounds
A compound contains more than one kind of element. Compounds are made up of two or more different elements that are chemically bonded together. This differs from elements, which are pure substances made up of only one type of atom.
"Fluor" is an informal name for a mineral that contains more than one element and therefore does not have any atomic number. The element fluorine has an atomic number of 9.
Uranium is a chemical element, not a compound.
compound
AnswerNo It is not a pure substance because it contains more than one element.
An element contains only one type of atoms. the substance which is made of more than one type of atom is called COMPOUND.Read more: Is_an_element_made_out_of_more_than_one_type_of_atom