No, just one covalent (single) bond: Cl-Cl
The reaction is:Ag+ + Cl- = AgCl(s)Silver chloride is an insoluble, white, photosensitive precipitate.
Fe and Cl are chemical elements situated in the periodic table.FeCl2 is a chemical compound.
this can be trick balancing equations but this one is easy. the correct equation is CaCO3--> CaO+CO2. CaO plus CO2 does equal CaCO3 because you are adding the single Oxogen atom in CaO to the double Oxygen atom in CO2. basic maths makes it 1+2=3. Easy!!
This is a compound, a molecule.
CI2 is a covalent molecule. It consists of two chlorine atoms sharing a pair of electrons between them to form a single covalent bond.
CI2 is a nonpolar molecule. This is because the two chlorine atoms in CI2 have the same electronegativity, causing the molecule to have a symmetrical distribution of electrons, resulting in no net dipole moment.
Cholride? Chlorine
no.
There are only two atoms in Cl2, as the chemical formula Cl2 represents a molecule of chlorine gas which consists of two chlorine atoms covalently bonded together.
The balanced equation for the reaction between KI and Cl2 to form KCl and I2 is: 2KI + Cl2 -> 2KCl + I2 This equation is already balanced.
It is covalent bond. Cl2 is formed by the sharing of electrons with each other.
No, just one covalent (single) bond: Cl-Cl
The reaction is:Ag+ + Cl- = AgCl(s)Silver chloride is an insoluble, white, photosensitive precipitate.
Fe and Cl are chemical elements situated in the periodic table.FeCl2 is a chemical compound.
To balance the reaction CI2 + KI → KCI + I2, you need to adjust the coefficients of the compounds in the reaction. Start by balancing the non-hydrogen and non-oxygen atoms first, then balance the hydrogen and oxygen atoms if present. In this case, the balanced reaction is 1Cl2 + 2KI → 2KCl + 1I2.
CIF2 contains both ionic and covalent bonds. The bond between the calcium (Ca) and the two fluoride (F) atoms is predominantly ionic, with calcium donating electrons to fluorine. The bond between the two fluoride atoms is covalent, as they share electrons to form a fluorine molecule.