vanadium |
schumacherite |
As nouns the difference between vanadium and schumacherite
is that
vanadium is vanadium (symbol: v) while
schumacherite is (mineralogy) a triclinic-pinacoidal mineral containing arsenic, bismuth, hydrogen, oxygen, phosphorus, and vanadium.
phosphorus |
schumacherite |
As a proper noun phosphorus
is a name sometimes used for hesperus, the personification in greek mythology of the planet venus.
As a noun schumacherite is
(mineralogy) a triclinic-pinacoidal mineral containing arsenic, bismuth, hydrogen, oxygen, phosphorus, and vanadium.
oxygen |
schumacherite |
As nouns the difference between oxygen and schumacherite
is that
oxygen is a chemical element (
symbol o) with an atomic number of 8 and relative atomic mass of 159994 while
schumacherite is (mineralogy) a triclinic-pinacoidal mineral containing arsenic, bismuth, hydrogen, oxygen, phosphorus, and vanadium.
hydrogen |
schumacherite |
As nouns the difference between hydrogen and schumacherite
is that
hydrogen is the lightest chemical element (
symbol h) with an atomic number of 1 and atomic weight of 100794 while
schumacherite is (mineralogy) a triclinic-pinacoidal mineral containing arsenic, bismuth, hydrogen, oxygen, phosphorus, and vanadium.
bismuth |
schumacherite |
As nouns the difference between bismuth and schumacherite
is that
bismuth is a chemical element (
symbol bi) with an atomic number of 83 while
schumacherite is (mineralogy) a triclinic-pinacoidal mineral containing arsenic, bismuth, hydrogen, oxygen, phosphorus, and vanadium.
arsenic |
schumacherite |
As nouns the difference between arsenic and schumacherite
is that
arsenic is arsenic while
schumacherite is (mineralogy) a triclinic-pinacoidal mineral containing arsenic, bismuth, hydrogen, oxygen, phosphorus, and vanadium.
mineral |
schumacherite |
As nouns the difference between mineral and schumacherite
is that
mineral is mineral while
schumacherite is (mineralogy) a triclinic-pinacoidal mineral containing arsenic, bismuth, hydrogen, oxygen, phosphorus, and vanadium.