none are. organic is defined as containing carbon and hydrogens. other elements can be used, mainly oxygen, nitrogen, sulphur and phosphorus and others in organometallics. but they need to contain carbon and hydrogen mainly.
i may be wrong on potassium hydrogen carbonate. cannot find out from a Google search. can someone shed more light please? the other two definitely are not organic
The balanced equation for BaCO3 + 2HI is BaCO3 + 2HI → BaI2 + H2O + CO2.
Yes, BaCO3 is a solid compound at room temperature. It is a white, crystalline substance that is insoluble in water.
The solubility of barium carbonate (BaCO3) in water is very low, approximately 0.0002 grams per 100 mL at room temperature. Therefore, in 1000 mL of water, about 0.002 grams of BaCO3 would dissolve. This indicates that BaCO3 is not soluble in water and will mostly remain undissolved.
It is not recommended to prepare sodium cyanide (NaCN) at home due to its highly toxic and hazardous properties. Handling and working with NaCN requires specialized equipment, training, and safety measures to prevent serious harm or danger. It is best to purchase NaCN from a reputable chemical supplier if it is needed for a specific purpose, and always handle it with extreme caution.
The solubility of BaCO3 can be calculated by taking the square root of the Ksp value, which is 7.94 x 10^-5 mol/L. This represents the maximum amount of BaCO3 that can dissolve in water at equilibrium.
Yes, NACN is a strong nucleophile.
BaCO3 is barium carbonate. It is a solid and is mostly insoluble in water.
NaCN is the chemical formula of sodium cyanide, a very toxic substance.
The chemical formula for Barium Carbonate is BaCO3
Khco3+h2o
The ammonium cyanide chemical formula is NH4CN
The balanced equation for BaCO3 + 2HI is BaCO3 + 2HI → BaI2 + H2O + CO2.
The correct formula for Barium carbonate is BaCO3.
The bond between the molecules in NaCN is strong.
The mechanism of the NACN acetone reaction involves the nucleophilic addition of cyanide ion to the carbonyl carbon of acetone, followed by proton transfer and elimination of cyanide ion to form a cyanohydrin product. This reaction helps in understanding the principles of nucleophilic addition reactions, carbonyl chemistry, and the importance of cyanide as a nucleophile in organic synthesis.
To calculate the number of grams in 21.3 moles of BaCO3, you need to multiply the number of moles by the molar mass of BaCO3. The molar mass of BaCO3 is 197.34 g/mol. Therefore, 21.3 moles of BaCO3 would be 21.3 mol x 197.34 g/mol = 4201.662 g.
First off, it's POTASSIUM. (K) The formula would be: KHCO3