-1, but since there are two chlorines the charge is -2.
The binary compound of potassium and chlorine is potassium chloride, which has the chemical formula KCl. In this compound, potassium has a +1 charge and chlorine has a -1 charge, resulting in a neutral compound.
Barium has a 2+ charge while chlorine has a 1- charge, so they combine in a 1:2 ratio to form the compound barium chloride (BaCl2). In this compound, the two chloride ions balance the 2+ charge of the barium ion.
The total charge on a compound of sodium and chlorine, such as sodium chloride (table salt), is zero. This is because sodium (Na) has a +1 charge and chlorine (Cl) has a -1 charge, so they combine in a 1:1 ratio to form a neutral compound.
The charge of copper in the compound CuCl2 is +2. This is because chlorine typically has an oxidation number of -1, so in order to balance the overall charge to zero for the compound, copper must have a charge of +2.
The binary ionic compound formed between magnesium and chlorine is magnesium chloride, with the chemical formula MgCl2. In this compound, magnesium has a 2+ charge while chlorine has a 1- charge, resulting in the formation of MgCl2 through the transfer of electrons.
The formula for the ionic compound formed between magnesium and chlorine is MgCl2. Magnesium, with a 2+ charge, forms an ion while chlorine, with a 1- charge, forms one ion, resulting in a 1:2 ratio in the compound.
The binary ionic compound formed between zinc and chlorine is zinc chloride (ZnCl2). In this compound, zinc ion has a charge of +2, while each chlorine ion has a charge of -1. Thus, two chlorine ions are needed to balance the charge of one zinc ion.
The binary compound of potassium and chlorine is potassium chloride, which has the chemical formula KCl. In this compound, potassium has a +1 charge and chlorine has a -1 charge, resulting in a neutral compound.
The formula for an ionic compound containing magnesium and chlorine is MgCl2. Magnesium has a +2 charge, while chlorine has a -1 charge, so two chlorine ions are needed to balance the charge of one magnesium ion.
The compound formula for beryllium and chlorine is BeCl2. Beryllium, a Group 2 metal, forms ions with a 2+ charge, while chlorine, a halogen in Group 17, typically forms ions with a 1- charge. The formula is derived by balancing the charges of the ions to achieve a neutral compound.
Barium has a 2+ charge while chlorine has a 1- charge, so they combine in a 1:2 ratio to form the compound barium chloride (BaCl2). In this compound, the two chloride ions balance the 2+ charge of the barium ion.
The total charge on a compound of sodium and chlorine, such as sodium chloride (table salt), is zero. This is because sodium (Na) has a +1 charge and chlorine (Cl) has a -1 charge, so they combine in a 1:1 ratio to form a neutral compound.
The compound formed between barium and chlorine would be barium chloride (BaCl2). In this compound, barium has a +2 charge and chlorine has a -1 charge, so two chlorine atoms are needed to balance the charge of one barium atom.
The charge of copper in the compound CuCl2 is +2. This is because chlorine typically has an oxidation number of -1, so in order to balance the overall charge to zero for the compound, copper must have a charge of +2.
The binary ionic compound formed between magnesium and chlorine is magnesium chloride, with the chemical formula MgCl2. In this compound, magnesium has a 2+ charge while chlorine has a 1- charge, resulting in the formation of MgCl2 through the transfer of electrons.
The formula for 1 atom of cobalt reacting with 2 atoms of chlorine is CoCl2, known as cobalt(II) chloride. In this compound, cobalt has a +2 charge, and each chlorine atom has a -1 charge, resulting in the chemical formula CoCl2.
Yes, iron and chlorine can form an ionic compound called iron (III) chloride, where iron has a +3 charge and chlorine has a -1 charge. In this compound, the iron atom transfers three electrons to three chlorine atoms to achieve stability.