terms |
barberiite |
As nouns the difference between terms and barberiite
is that
terms is while
barberiite is (mineral) an orthorhombic-dipyramidal colorless mineral containing boron, fluorine, hydrogen, and nitrogen.
nitrogen |
barberiite |
As nouns the difference between nitrogen and barberiite
is that
nitrogen is nitrogen (symbol: n) while
barberiite is (mineral) an orthorhombic-dipyramidal colorless mineral containing boron, fluorine, hydrogen, and nitrogen.
hydrogen |
barberiite |
As nouns the difference between hydrogen and barberiite
is that
hydrogen is the lightest chemical element (
symbol h) with an atomic number of 1 and atomic weight of 100794 while
barberiite is (mineral) an orthorhombic-dipyramidal colorless mineral containing boron, fluorine, hydrogen, and nitrogen.
fluorine |
barberiite |
As nouns the difference between fluorine and barberiite
is that
fluorine is the chemical element (
symbol F) with an atomic number of 9 while
barberiite is an orthorhombic-dipyramidal colorless mineral containing boron, fluorine, hydrogen, and nitrogen.
boron |
barberiite |
As nouns the difference between boron and barberiite
is that
boron is the chemical element (
symbol b) with an atomic number of 5; a metalloid while
barberiite is (mineral) an orthorhombic-dipyramidal colorless mineral containing boron, fluorine, hydrogen, and nitrogen.
mineral |
barberiite |
As nouns the difference between mineral and barberiite
is that
mineral is any naturally occurring inorganic material that has a (more or less) definite chemical composition and characteristic physical properties while
barberiite is an orthorhombic-dipyramidal colorless mineral containing boron, fluorine, hydrogen, and nitrogen.
As an adjective mineral
is of, related to, or containing minerals.
