The molecular shape of the bromate ion (BrO₄⁻) is tetrahedral. This geometry arises from the central bromine atom surrounded by four oxygen atoms, with one of the oxygen atoms carrying a negative charge. The shape is determined by the arrangement of electron pairs around the bromine atom, which follows the VSEPR theory. The presence of resonance structures also contributes to the stability of this tetrahedral configuration.
The chemical formula for beryllium perbromate is Be(BrO4)2.
The molecular shape of CIF2 is linear. This is because there are only two atoms bonded with the central atom, which results in a linear molecular geometry.
F2 has a linear shape.
pyramidal
The chemical formula for magnesium perbromate is Mg(BrO4)2.
The molecular shape of SCl6 is octahedral.
The chemical formula for beryllium perbromate is Be(BrO4)2.
The chemical name for HBrO4 is perbromic acid.
The chemical name for BrO4 is bromate, while the chemical name for SeO32 is selenite.
The molecular shape name for C3H8 is a tetrahedron.
tetrahedral
Parent Shape: Trigonal bipyrimidal Actual shape: Trigonal Planar
V-shape
A compound that does not have a bent molecular shape is carbon dioxide (CO2). It has a linear molecular shape due to the arrangement of the three atoms in a straight line.
The molecular shape of CIF2 is linear. This is because there are only two atoms bonded with the central atom, which results in a linear molecular geometry.
The molecular shape of a magnesium hydride molecule is linear. Magnesium has a +2 charge, while hydride has a -1 charge, resulting in a linear molecular shape.
The correct name for the BrO4^-1 ion is perbromate.