The `HF_(2)^(Θ)` ion solid state and in liquid `HF` but not in the dilute aqueous solution
`HF_(2)^(Θ)` exists in solid state and in liquid `HF` because `HF_(2)^(Θ)` ions are held together by .

The HF_(2)^(Θ) ion solid state and in liquid HF but not in the dilute aqueous solution In aqueous solution

The HF_(2)^(Θ) ion solid state and in liquid HF but not in the dilute aqueous solution In aqueous solution

The HF_(2)^(Θ) ion solid state and in liquid HF but not in the dilute aqueous solution Energy of H-bond is maximum in .

The HF_(2)^(Θ) ion solid state and liquid HF but not in the dilute aqueous solution Energy of H-bond is maximum in .

The HF_(2)^(Θ) ion solid state and in liquid HF but not in the dilute aqueous solution At 300 K and 1.00 atm, the density of HF is 3.17 gL^(-1) We conclude that there is a .

The HF_(2)^(Θ) ion solid state and in liquid HF but not in the dilute aqueous solution At 300 K and 1.00 atm, the density of HF is 3.17 gL^(-1) We conclude that there is a .

In dilute aqueous solution HF is a weaker acid than HI, because

The HF_(2)^(Θ) ion solid state and in liquid HF but not in the dilute aqueous solution Consider the following molecules . A :Anti -pyridine -2-carboxaldoxime B :syn pyridine -2-carboaxaldoxime C : nickel -dimethyl glyoximate C : nickel-dimethyl glyoximate D : o-nitrophenol intermolecular hydrogen bonding (inQ.5) is observed in .

The HF_(2)^(Θ) ion solid state and in liquid HF but not in the dilute aqueous solution Consider the following molecules . A :Anti -pyridine -2-carboxaldoxime B :syn pyridine -2-carboaxaldoxime C : nickel -dimethyl glyoximate C : nickel-dimethyl glyoximate D : o-nitrophenol E : p-nitrophenol F : p-salicylaldehyde In which case chelate formation occurs ? .

In aqueous solution HF is weaker acid than HCl ?