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Is CL2 an expected ionic bonding?
Yes, Cl2 is not expected to form an ionic bond because both chlorine atoms have a high electronegativity and tend to share electrons in a covalent bond rather than transfer them to form ions.
Which type of bonding would be expected between S and CI?
The bonding between Sulfur (S) and Chlorine (Cl) would be expected to be a covalent bond. In covalent bonding, atoms share electrons to achieve a full outer shell and form a stable molecule, as is the case with sulfur and chlorine in molecules like sulfur dichloride (SCl2).
Is chlorine and lithium a iconic compound?
No, chlorine and lithium do not form an iconic compound. Chlorine is a nonmetal and lithium is a metal, so they would form an ionic compound, not an iconic compound.
Would chlorine and iron form a divalent bond?
No, chlorine and iron would not form a divalent bond. Chlorine typically forms a single covalent bond with other elements, and iron can form both divalent and trivalent bonds with other elements, depending on the specific compound involved.
Would iron and chlorine form an ionic compound?
Yes, iron and chlorine would form an ionic compound. Iron, a metal, would lose electrons to form Fe^2+ ions, while chlorine, a non-metal, would gain electrons to form Cl^- ions. These oppositely charged ions would then attract each other to form an ionic compound, likely iron (II) chloride with the formula FeCl2.
Is CL2 an expected ionic bonding?
Yes, Cl2 is not expected to form an ionic bond because both chlorine atoms have a high electronegativity and tend to share electrons in a covalent bond rather than transfer them to form ions.
Which type of bonding would be expected between S and CI?
The bonding between Sulfur (S) and Chlorine (Cl) would be expected to be a covalent bond. In covalent bonding, atoms share electrons to achieve a full outer shell and form a stable molecule, as is the case with sulfur and chlorine in molecules like sulfur dichloride (SCl2).
Which would form a negative ion lithium aluminum magnesium or chlorine?
Chlorine would form a negative ion and the other three positive ions.
Is chlorine and lithium a iconic compound?
No, chlorine and lithium do not form an iconic compound. Chlorine is a nonmetal and lithium is a metal, so they would form an ionic compound, not an iconic compound.
Would lithium and chlorine form an ionic bond?
Yes
What bond would magnesium and chlorine form?
This bond is ionic.
Would chlorine and iron form a divalent bond?
No, chlorine and iron would not form a divalent bond. Chlorine typically forms a single covalent bond with other elements, and iron can form both divalent and trivalent bonds with other elements, depending on the specific compound involved.
Would iron and chlorine form an ionic compound?
Yes, iron and chlorine would form an ionic compound. Iron, a metal, would lose electrons to form Fe^2+ ions, while chlorine, a non-metal, would gain electrons to form Cl^- ions. These oppositely charged ions would then attract each other to form an ionic compound, likely iron (II) chloride with the formula FeCl2.
Which of these pairs of elements would bond ionically with chlorine?
Elements from Group 1 (such as sodium) and Group 2 (such as magnesium) would bond ionically with chlorine. Sodium would form NaCl (sodium chloride) and magnesium would form MgCl2 (magnesium chloride) through ionic bonds with chlorine.
Can you give an example of a sentence using simple future form of verbs?
D. is expected to take place in the future.
Can zinc and chlorine would form ionic bond?
Yes, zinc and chlorine can form an ionic bond. Zinc loses two electrons to form a 2+ cation, while chlorine gains one electron to form a 1- anion. The attraction between the opposite charges results in the formation of an ionic bond between zinc and chlorine.
What time of bond would form with magnesium and chlorine?
An ionic bond would form between magnesium and chlorine. Magnesium, a metal, will donate electrons to chlorine, a nonmetal, resulting in the formation of magnesium chloride with ionic character due to the complete transfer of electrons.
