HBr is not a weak base; it is a strong acid. In water, HBr completely dissociates into H+ and Br- ions, leading to a high concentration of H+ ions in solution. This strong acidity makes HBr a poor proton acceptor and hence not a base.
HBr is a strong acid. It dissociates completely in water to form H+ and Br- ions, making it a strong acid rather than a base.
Cl is a stronger base compared to Br because Cl has a higher electronegativity, making it more likely to accept a proton and act as a base in a reaction.
C5H5NHBr is acidic because it dissociates into Br- and C5H5NH+ ions. Br- comes from a strong acid, making its conjugate neutral. C5H5NH comes from a weak base, making its conjugate a significant acid. Now, because one ion is neutral and the other is acidic, that means that the overall solution is acidic :)
HBr is a strong acid. It ionizes completely in water to form H+ and Br- ions, making it a strong electrolyte and a strong acid.
HBr is not a weak base; it is a strong acid. In water, HBr completely dissociates into H+ and Br- ions, leading to a high concentration of H+ ions in solution. This strong acidity makes HBr a poor proton acceptor and hence not a base.
HBr is a strong acid. It dissociates completely in water to form H+ and Br- ions, making it a strong acid rather than a base.
Cl is a stronger base compared to Br because Cl has a higher electronegativity, making it more likely to accept a proton and act as a base in a reaction.
No, Br- is not a base. Br- is the bromide ion, a conjugate base of hydrobromic acid (HBr). It is a negatively charged ion and can act as a weak base in certain reactions, but it is not considered a base in general chemistry terms.
C5H5NHBr is acidic because it dissociates into Br- and C5H5NH+ ions. Br- comes from a strong acid, making its conjugate neutral. C5H5NH comes from a weak base, making its conjugate a significant acid. Now, because one ion is neutral and the other is acidic, that means that the overall solution is acidic :)
HBr is a strong acid. It ionizes completely in water to form H+ and Br- ions, making it a strong electrolyte and a strong acid.
There is no conjugate) base coupled to bromide, Br-, because this Br- can NOT donate (by protolysing) a proton (H+) in water.However Br- itself is the very, very weakest base of the (very, very) strong conjugate acid HBr.This is the only possible conjugate acid/base pair:HBr/Br-
NH4Br is a salt that dissociates completely in water to form NH4+ and Br- ions. Since it does not donate protons to the solution, it is not an acid.
Hydrobromic acid is a strong acid because it ionizes completely in water to form H+ ions and Br- ions. This makes it a good conductor of electricity and a powerful proton donor.
Br can act as a Lewis base by donating its lone pair of electrons to form a coordinate covalent bond with a Lewis acid.
Bromine (Br) is a nonmetal element and is neither an acid nor a base. In its elemental form, bromine does not exhibit typical acidic or basic properties.
NaBr is a salt composed of sodium cation Na+ and bromide anion Br-. It is formed from the neutralization reaction between a strong acid, such as hydrobromic acid (HBr), and a strong base, such as sodium hydroxide (NaOH). Therefore, NaBr is neutral and does not act as an acid or a base in solution.