Solid AlCl3 is ionic. Liquid and gaseous AlCl3 is present as a covalent dimer, Al2Cl6. At high temperatures the dimer dissociates to form the planar covalent monomer AlCl3.
The name of the ionic compound AlCl3 is aluminum chloride.
Unhydrated AlCl3 has a covalent nature because it exists as discrete molecules with covalent bonds between aluminum and chlorine atoms. When AlCl3 is hydrated, water molecules bind to the Al3+ cation through ionic interactions, disrupting the covalent bonds within AlCl3 molecules and shifting the overall nature of the compound to ionic.
Aluminum chloride is the ionic compound represented by the formula AlCl3.
SO2 is not likely to be an ionic compound because it is a covalent compound. It consists of nonmetal elements (sulfur and oxygen) which tend to share electrons rather than transfer them to form ions. In contrast, KBr and AlCl3 are likely to be ionic compounds because they are formed by the transfer of electrons between a metal and a nonmetal.
First, the symbol for any chemical element properly begins with a capital, not a lower case letter. Second, assuming the formula is rectified to AlCl3, it is the formula for a chemical compound, and no chemical compound is any kind of chemical bond: A compound has bonds, or contains bonds, or illustrates bonding. With that out of the way, yes, the compound properly represented by the formula AlCl3 does indeed contain polar covalent bonds.
The name of the ionic compound AlCl3 is aluminum chloride.
Unhydrated AlCl3 has a covalent nature because it exists as discrete molecules with covalent bonds between aluminum and chlorine atoms. When AlCl3 is hydrated, water molecules bind to the Al3+ cation through ionic interactions, disrupting the covalent bonds within AlCl3 molecules and shifting the overall nature of the compound to ionic.
Aluminum chloride is the ionic compound represented by the formula AlCl3.
SO2 is not likely to be an ionic compound because it is a covalent compound. It consists of nonmetal elements (sulfur and oxygen) which tend to share electrons rather than transfer them to form ions. In contrast, KBr and AlCl3 are likely to be ionic compounds because they are formed by the transfer of electrons between a metal and a nonmetal.
First, the symbol for any chemical element properly begins with a capital, not a lower case letter. Second, assuming the formula is rectified to AlCl3, it is the formula for a chemical compound, and no chemical compound is any kind of chemical bond: A compound has bonds, or contains bonds, or illustrates bonding. With that out of the way, yes, the compound properly represented by the formula AlCl3 does indeed contain polar covalent bonds.
The ionic compound formed between aluminum and chlorine is aluminum chloride (AlCl3). In this compound, aluminum donates three electrons to each chlorine atom to form a stable ionic bond.
Chlorine oxide would be a covalent compound, and not an ionic compound.
is carbon an tretaflouride ionic or covalent compound
Ionic compounds are salts or oxides as NaCl, LiF, MgCl2, MgO, UCl4, ThO2, CsCl, CaCl2, FeCl3, AlCl3.
The name of the ionic compound AlCl3 is aluminum chloride.
Sodium chloride is an ionic compound whereas AlCl3 is a covalent compound. Ionic compounds have greater melting point due to stronger electrostatic force of attraction.
alcl3 is not ionic... its co-valent because the polarizing power of al is so high that it attracts the cl electron cloud with such intensity that it causes electron sharing... chlorine is easy to polarize due to weak effective nuclear charge as it has more itnrvning electrons... ( i hope it helped =))