H - Br
There should be one dot to the right of the Hydrogen atom(H), sharing a bond with a dot to the left of the Bromine atom (Br). Then add two dots on each other side of the Br. In total, there should be one dot around H and seven dots around Br.
The correct NCOH Lewis structure shows nitrogen bonded to carbon, which is bonded to oxygen and hydrogen.
The Lewis structure for NH3 shows nitrogen in the center with three hydrogen atoms bonded around it. Each hydrogen atom is connected to the nitrogen atom by a single bond.
No, there are no double bonds in the Lewis structure for hydrogen fluoride (HF). Hydrogen forms a single bond with fluorine to complete its valence shell, resulting in a stable molecule.
The Lewis structure for hydrogen chloride (HCl) consists of hydrogen with one valence electron bonded to chlorine with seven valence electrons. The bond between hydrogen and chlorine is represented by a single line. Chlorine has a lone pair of electrons, while hydrogen has none.
The Lewis structure for HOCl shows oxygen bonded to hydrogen and chlorine, with oxygen having two lone pairs of electrons and forming a single bond with hydrogen and a double bond with chlorine.
The correct NCOH Lewis structure shows nitrogen bonded to carbon, which is bonded to oxygen and hydrogen.
The Lewis dot structure for hydrogen bromide (HBr) consists of a single covalent bond between the hydrogen atom and the bromine atom. So, there is one single covalent bond in the Lewis dot structure of HBr.
The Lewis structure for NH3 shows nitrogen in the center with three hydrogen atoms bonded around it. Each hydrogen atom is connected to the nitrogen atom by a single bond.
No, there are no double bonds in the Lewis structure for hydrogen fluoride (HF). Hydrogen forms a single bond with fluorine to complete its valence shell, resulting in a stable molecule.
The Lewis structure for hydrogen chloride (HCl) consists of hydrogen with one valence electron bonded to chlorine with seven valence electrons. The bond between hydrogen and chlorine is represented by a single line. Chlorine has a lone pair of electrons, while hydrogen has none.
The Lewis structure for HOCl shows oxygen bonded to hydrogen and chlorine, with oxygen having two lone pairs of electrons and forming a single bond with hydrogen and a double bond with chlorine.
The Lewis structure of HOCl shows oxygen bonded to hydrogen and chlorine, with oxygen having two lone pairs of electrons and forming a single bond with hydrogen and a single bond with chlorine.
The Lewis structure of NH2 consists of a nitrogen atom in the center with two hydrogen atoms attached to it, and a positive charge on the nitrogen atom.
The Lewis structure of H3NO shows a nitrogen atom in the center with three hydrogen atoms attached to it and one oxygen atom attached to the nitrogen.
The Lewis structure of formic acid consists of a carbon atom double-bonded to an oxygen atom, which is also single-bonded to a hydrogen atom. Another hydrogen atom is single-bonded to the carbon atom.
The Lewis structure for NFH2 shows nitrogen bonded to two hydrogen atoms and one fluorine atom. The nitrogen atom has a lone pair of electrons.
The Lewis structure of glycine, an amino acid, consists of a central carbon atom bonded to an amino group (NH2), a carboxyl group (COOH), and a hydrogen atom.