The conjugate base of CN- is HCN (hydrogen cyanide). When CN- accepts a proton, it becomes neutral and forms the weak acid HCN.
HCN is a weak acid. It partially dissociates in water to form H+ ions and CN- ions.
HCN - Hydrogen cyanide The conjugate acid of CN- is HCN. HCN stands for hydrogen cyanide. The conjugate acids are a combination of a strong acid and a low base.
NaCN is a weak base because the cyanide ion (CN-) can accept a proton (H+) from water to form hydrocyanic acid (HCN), increasing the concentration of hydroxide ions (OH-) in solution.
The conjugate base and conjugate acid for HS04 is: Conjugate acid is H2SO4 Conjugate base is SO42
The conjugate base of CN- is HCN (hydrogen cyanide). When CN- accepts a proton, it becomes neutral and forms the weak acid HCN.
The conjugate base of hydrocyanic acid (HCN) is cyanide ion (CN-). When HCN donates a proton, it forms CN-.
HCN is a weak acid. It partially dissociates in water to form H+ ions and CN- ions.
HCN - Hydrogen cyanide The conjugate acid of CN- is HCN. HCN stands for hydrogen cyanide. The conjugate acids are a combination of a strong acid and a low base.
NaCN is a weak base because the cyanide ion (CN-) can accept a proton (H+) from water to form hydrocyanic acid (HCN), increasing the concentration of hydroxide ions (OH-) in solution.
The conjugate base and conjugate acid for HS04 is: Conjugate acid is H2SO4 Conjugate base is SO42
The conjugate base of NH3 is NH2-, formed by removing a proton (H+) from NH3.
The conjugate base of HSO3- is SO32-.
The conjugate base for CH3CH2COOH is CH3CH2COO-.
The conjugate base of H2O is OH-. When H2O loses a proton, it forms the hydroxide ion OH-, which is the conjugate base of water.
The conjugate base of H3PO4 is H2PO4-. The formula for the conjugate base can be found by removing one proton (H+) from the acid molecule.
PO43-