The conjugate acid is a salt. The ionic character of the salt makes it soluble in water, a polar solvent.
Yes, acetate ions are water soluble. The acetate ion is the conjugate base of acetic acid, which is a weak acid that readily dissociates in water to release the acetate ion.
No, the conjugate acid of most strong bases is water.
Acid + base salt + water
The conjugate acid of O2- is H2O2 (hydrogen peroxide). When O2- gains a proton, it forms H2O2.
Yes, acetic acid is soluble in water.
When acid is added to the reaction mixture after refluxing, the amino group is protonated, making it soluble in water. When the Na2CO3 is added, the proton is removed and the benzocaine is no longer soluble. Thus it begins to precipitate out of solution when the reaction mixture is neutralized.
Yes, acetate ions are water soluble. The acetate ion is the conjugate base of acetic acid, which is a weak acid that readily dissociates in water to release the acetate ion.
Benzocaine's solubility can be increased by forming salts with more soluble acids, such as benzoic acid or hydrochloric acid, or by incorporating co-solvents like propylene glycol or ethanol. Additionally, reducing the particle size through techniques like micronization or nanosizing can also enhance benzocaine's solubility.
No, the conjugate acid of most strong bases is water.
Acid + base salt + water
The conjugate acid of O2- is H2O2 (hydrogen peroxide). When O2- gains a proton, it forms H2O2.
The conjugate acid of water is the hydronium ion (H3O+) and the conjugate acid of water is the hydroxide ion (OH-).
Yes, acetic acid is soluble in water.
Yes, carbonic acid is soluble in water.
Yes, malic acid is soluble in water.
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-
NaOH, or lye. They form NaCl and H2O, or salt and water.