tetrahedral
The hybridization of Cl in ClO4- is sp3. It forms four sigma bonds with the four oxygen atoms, resulting in a tetrahedral molecular geometry.
Perchlorate ion (ClO4-) is colorless.
Cu(ClO4)2 dissociates into Cu2+ ions and 2 ClO4- ions in solution. This results in the breakdown of the copper perchlorate compound into its constituent ions when dissolved in water. The balanced equation for the dissociation of Cu(ClO4)2 is: Cu(ClO4)2 -> Cu2+ + 2 ClO4-.
The chemical symbol for perchlorate is ClO4-.
In ClO4-, the oxidation number of Cl is +7, and the oxidation number of each O is -2.
Tetrahedral
Tetrahedral
The hybridization of Cl in ClO4- is sp3. It forms four sigma bonds with the four oxygen atoms, resulting in a tetrahedral molecular geometry.
ClO4 is polar.
Perchlorate ion (ClO4-) is colorless.
Cu(ClO4)2 dissociates into Cu2+ ions and 2 ClO4- ions in solution. This results in the breakdown of the copper perchlorate compound into its constituent ions when dissolved in water. The balanced equation for the dissociation of Cu(ClO4)2 is: Cu(ClO4)2 -> Cu2+ + 2 ClO4-.
The formula for magnesium perchlorate is Mg(ClO4)2.
The chemical symbol for perchlorate is ClO4-.
The formula for the perchlorate ion is ClO4-. It consists of one chlorine atom bonded to four oxygen atoms.
ClO4 is polar.
In ClO4-, the oxidation number of Cl is +7, and the oxidation number of each O is -2.
The symbol for the oxyanion perchlorate ion is ClO4-.