no
Oxalates are salts of oxalic acid containing oxalate ion. Oxalate ion is a dianion. Upon protonation, oxalate ion forms a commonly known compound, oxalic acid. The commonly known oxalate salts are sodium oxalate, potassium oxalate etc. The calcium metal ion reacts with oxalate ion to form an insoluble precipitate of calcium oxalate, which is the primary constituent of most of the common kind of Kidney stones.
Calcium, strontium and Barium form white precipitates of their oxalates with C2O4-2 ions.
A kidney stone. There are different types of kidney stones. The exact cause depends on the type of stone.Calcium stones are most common. They occur more often in men than in women, and usually appear between ages 20 - 30. They are likely to come back. Calcium can combine with other substances, such as oxalate (the most common substance), phosphate, or carbonate to form the stone. Oxalate is present in certain foods. Diseases of the small intestine increase the risk of forming calcium oxalate stones.
No. The radon and neon will no react at all. If heated the calcium and hydrogen may combine to form calcium hydride, which is a strong base.
Calcium (Ca) and Chlorine (Cl).
Calcium and oxygen combine to form calcium oxide, CaO.
In formol titration, amino acids with formaldehyde are titrated with NaOH to measure the amount of amino acids in the solution. Potassium is also necessary for this titration and is supplied by using potassium oxalate. If calcium is present, it will react with the NaOH to form Ca(OH)2. This will make it appear to need more of the NaOH solution (and overestimate the titration). Potassium oxalate will chelate the calcium, and prevent it from reacting (forming calcium oxalate).
The answer is Calcium and Phosphorous.
Examples are: calcium carbonate, calcium oxalate, calcium fluoride etc.
True
Calcium, Oxygen and Carbon
Calcium, Oxygen and Carbon