Yes. All bonds in chloroform are covalent.
There is one covalent bond in a chlorine molecule. The formula for a chlorine molecule is Cl2, which means that there are two chlorine atoms bonded together per molecule. The structural formula for a molecule of chlorine is Cl-Cl, in which the line in between the symbols for the two atoms represents a single covalent bond.
The answer i believe is Non-polar Covalent.
There is no such thing as CI2 However, Cl2 is elemental chlorine, which is covalently bonded to form diatomic molecules.
Chlorine can form both ionic and covalent bonds, depending on what it is bonded with. If bonded with a metal, it will form an ionic bond. If bonded with a non-metal, it will form a covalent bond.
Sodium chloride is an ionic compound and gives free chloride ions in solution while in chloroform chlorine atoms are covalently bonded and can not move as free ions.
There is one covalent bond in a chlorine molecule. The formula for a chlorine molecule is Cl2, which means that there are two chlorine atoms bonded together per molecule. The structural formula for a molecule of chlorine is Cl-Cl, in which the line in between the symbols for the two atoms represents a single covalent bond.
The answer i believe is Non-polar Covalent.
There is no such thing as CI2 However, Cl2 is elemental chlorine, which is covalently bonded to form diatomic molecules.
Chlorine can form both ionic and covalent bonds, depending on what it is bonded with. If bonded with a metal, it will form an ionic bond. If bonded with a non-metal, it will form a covalent bond.
3!
Sodium chloride is an ionic compound and gives free chloride ions in solution while in chloroform chlorine atoms are covalently bonded and can not move as free ions.
SrCl2 : Strontium chloride, would be ionically bonded because a metal (strontium) is bonded to a nonmetal (chlorine).
When atoms are bonded together with covalent bonds, the result is a molecule.
Well the covalent bond between chlorine and carbon will of greater strength than between iodine and carbon, since chlorine has a greater electronegativity and so is attracted to the bonded pair of electrons more strongly than iodine and so iodine will be able to be donated to the AgNO3 and react to form the AgI precipitate much more readily.
covalent
KClO3 ===========potassium chlorate The potassium, K +, is ionically bonded to the chlorate, a polyatomic ion, CLO3 -, but the chlorine and oxygen atoms are covalently bonded together.
bonded