O2 2-
O^2-
The conjugate base for HS04 is SO42.
The conjugate base for H2O is the hydroxide ion, OH-. When the hydroxide ion reacts with another water molecule, a hydrogen ion may be transferred, resulting in a water molecule and a hydroxide ion. Therefore, the conjugate base of water is OH-
The conjugate pair for a strong base is water (H2O) and the hydroxide ion (OH-). When the strong base dissociates in water, it forms the hydroxide ion, and the water molecule acts as its conjugate acid.
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.
OH -I assume.
There is no such ion as H2CO3- However, the neutral molecule H2CO3 exists. Its conjugate base is the bicarbonate, or hydrogen carbonate ion: HCO3- The conjugate base of the bicarbonate ion is the carbonate ion: CO32-
The conjugate base for H2O is the hydroxide ion, OH-. When the hydroxide ion reacts with another water molecule, a hydrogen ion may be transferred, resulting in a water molecule and a hydroxide ion. Therefore, the conjugate base of water is OH-
The conjugate pair for a strong base is water (H2O) and the hydroxide ion (OH-). When the strong base dissociates in water, it forms the hydroxide ion, and the water molecule acts as its conjugate acid.
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.
OH -I assume.
There is no such ion as H2CO3- However, the neutral molecule H2CO3 exists. Its conjugate base is the bicarbonate, or hydrogen carbonate ion: HCO3- The conjugate base of the bicarbonate ion is the carbonate ion: CO32-
The conjugate acid of NaOH will be water. OH- has the ability to act as an acid or a base.
The conjugate base of HF is the fluoride ion F-
At a pH of 7, both statements are true. The hydroxide ion concentration equals the hydronium ion concentration in a neutral solution with pH 7. Additionally, in a neutral solution, the concentration of the acid equals the concentration of the conjugate base since the solution has an equal balance of H+ and OH- ions.
The conjugate acid of water is the hydronium ion (H3O+) and the conjugate acid of water is the hydroxide ion (OH-).
The conjugate base of HClO3 is ClO3- (chlorate ion), and the conjugate base of H2PO4- is HPO4^2- (hydrogen phosphate ion).
The conjugate base of the H2PO4 ion is the HPO4^2- ion. This is formed when H2PO4 loses a hydrogen ion (H+).
The conjugate base of H3O+ is H2O (water). This is because when H3O+ donates a proton (H+ ion), it forms the conjugate base H2O by losing a hydrogen ion.