Elemntal iron is a metal with metallic bonding. In its compounds the bonding can be ionic or covalent.
Fe 2+and2Cl -Make FeCl2An ionic compound.
According to theory it has ionic bonding because a metal bonds with a non-metal. However, because there is not a large difference in electronegativity a bond is formed that is not exactly ionic nor covalent but an intermediate (the difference needs to be higher than 1.8 for an ionic bond to form, Fe has 1.8, O has 3.4 -> 1.6 difference). What this actually means is that Fe does not completely give away its three electrons to become Fe+3 because Oxygen doesn't attract them strong enough, or because Fe attracts them strongly too. Instead, they share the electrons as in a covalent bond. The bond is definitely polar (to give you an idea, the electronegativity difference between hydrogen and oxygen in water is 1.2, H has 2.2 and oxygen again 3.4. This gives rise to Hydrogen bonding, which is due to the polarity of the water molecule.). To conclude, the bond is an intermediate between an ionic and a covalent bond, and it is definitely polar.
The substance not paired correctly isCl2 - polar covalent bonds.
Electronegativity Fe = 1.83; O = 3.44 3.44 - 1.83 = 1.61 Since the electronegativity difference is 1.61 the bond is polar covalent 0 - 0.4 = Pure Covalent Bond 0.41 - 1.7 = Polar Covalent Bond 1.7 + = Ionic Bond
I think it is covalent
Fe 2+and2Cl -Make FeCl2An ionic compound.
First of all Fe is Iron, and a sample of Iron would just be pure Iron thus there wouldn't be any "bonds" Second of all Fe is a metal thus cannot have a covalent bond. If it bonds, it is usually an ionic bond with non-metal i.e. Oxygen to make rust
According to theory it has ionic bonding because a metal bonds with a non-metal. However, because there is not a large difference in electronegativity a bond is formed that is not exactly ionic nor covalent but an intermediate (the difference needs to be higher than 1.8 for an ionic bond to form, Fe has 1.8, O has 3.4 -> 1.6 difference). What this actually means is that Fe does not completely give away its three electrons to become Fe+3 because Oxygen doesn't attract them strong enough, or because Fe attracts them strongly too. Instead, they share the electrons as in a covalent bond. The bond is definitely polar (to give you an idea, the electronegativity difference between hydrogen and oxygen in water is 1.2, H has 2.2 and oxygen again 3.4. This gives rise to Hydrogen bonding, which is due to the polarity of the water molecule.). To conclude, the bond is an intermediate between an ionic and a covalent bond, and it is definitely polar.
According to theory it has ionic bonding because a metal bonds with a non-metal. However, because there is not a large difference in electronegativity a bond is formed that is not exactly ionic nor covalent but an intermediate (the difference needs to be higher than 1.8 for an ionic bond to form, Fe has 1.8, O has 3.4 -> 1.6 difference). What this actually means is that Fe does not completely give away its three electrons to become Fe+3 because Oxygen doesn't attract them strong enough, or because Fe attracts them strongly too. Instead, they share the electrons as in a covalent bond. The bond is definitely polar (to give you an idea, the electronegativity difference between hydrogen and oxygen in water is 1.2, H has 2.2 and oxygen again 3.4. This gives rise to Hydrogen bonding, which is due to the polarity of the water molecule.). To conclude, the bond is an intermediate between an ionic and a covalent bond, and it is definitely polar.
The substance not paired correctly isCl2 - polar covalent bonds.
Metals have metallic bonds.
Iron is a metal and chlorine is a non-metal, so it would be classified as an ionic bond. However, the bond will actually possess some strong polar covalent character, because the electronegativity difference between Fe and Cl is approximately 1.2.
Electronegativity Fe = 1.83; O = 3.44 3.44 - 1.83 = 1.61 Since the electronegativity difference is 1.61 the bond is polar covalent 0 - 0.4 = Pure Covalent Bond 0.41 - 1.7 = Polar Covalent Bond 1.7 + = Ionic Bond
I think it is covalent
FeCl3 Ionic Fe(3+) and three Cl(-)
Elements don't have bonds, only compounds do.
FeCl is a metal (Fe) and a nonmetal (Cl), which means that it is a ionic bond.