Carbonates contain the anion (CO3)-. Ex.: barium carbonate, BaCO3.
Carbides are compounds formed from carbon and another element; ex.: silicon carbide, SiC.
No - calcium is an inorganic element as is carbon. Combined, they form the inorganic compound calcium carbide,
Both would be magnesium carbonate (MgCO3), however there may be other substances in them beside magnesium carbonate.
Magnesium carbonate and magnesium trisilicate are not the same chemically, but both of them could be effective antacids.
"Carbide" as used in "Carbide Drills" and "Carbide Saws" is the alloy Tungsten Carbide. Chemically the material is either Tungsten Carbide (WC) or Tungsten diCarbide (WC2). Carbide is used because of its hardness.
This is calcium carbide - CaC2.
The calcium carbide rips the oxygen from the water, making calcium carbonate and hydrogen. The hydrogen escapes.
Calcium Carbonate - also called limestone, calcite, chalk, and marble.
Iron (II) Carbonate
It depends on which oxidation state the atom is in some possibilities are carbide carbonate
It depends on which oxidation state the atom is in some possibilities are carbide carbonate
Cadmium (II) carbide.
CaCO3CaCO3-----Ca+2-calciumCO3-2--carbonate
Lithium carbonate or Li2CO3 is a basic (alkaline) salt often used to treat bipolar disorder.
No - calcium is an inorganic element as is carbon. Combined, they form the inorganic compound calcium carbide,
Both are different. Tungsten in an element whereas a carbide is a compound composed of carbon and a less electronegative element.
The iron(II) ion has +2 charge - Fe2+ The carbonate has -2 charge - CO32- the charge must be balanced so for every one iron(II) ion there should be one carbonate ion. Therefore the formula of Iron(II) Carbonate is: FeCO3
Sn (Tin) and C (Carbon) don't normally occur together. The closest reference I could find was to "Tin-Doped Carbon Clusters" in a chemistry journal.