0
Add your answer:
Earn +20 pts
Why is the bond LiBr covalent?
The bond in LiBr is primarily ionic, not covalent. Lithium donates an electron to bromine, forming an ionic bond.
Would LiBr be classified as ionic or covalent?
LiBr would be classified as ionic because it is formed between a metal (Li) and a non-metal (Br). Ionic bonds are formed when there is a transfer of electrons from the metal to the non-metal, resulting in the formation of positively charged cations (Li+) and negatively charged anions (Br-).
Is LiBr a liquis solid or gas?
LiBr is a solid at room temperature and pressure. It has a melting point of 547 degrees Celsius and boils at around 1265 degrees Celsius.
What is the name of formula LiBr?
The name of the chemical compound LiBr is lithium bromide. It is composed of lithium cations (Li+) and bromide anions (Br-).
Is LiBr ionic compound?
Yes, LiBr (lithium bromide) is an ionic compound. It is formed by the transfer of an electron from lithium (Li) to bromine (Br), resulting in the formation of Li+ cation and Br- anion, held together by electrostatic forces.
Why is the bond LiBr covalent?
The bond in LiBr is primarily ionic, not covalent. Lithium donates an electron to bromine, forming an ionic bond.
What is the classification of Lithium?
Lithium bromide is an inorganic compound, an ionic salt. Formula: LiBr Solubility in water: Soluble Appearance: White solid
Is LiBr ionic or molecule?
LiBr is an ionic compound, consisting of lithium cations (Li+) and bromide anions (Br-). Ionic compounds are formed through the transfer of electrons between a metal and a nonmetal, leading to the creation of positively and negatively charged ions.
Would LiBr be classified as ionic or covalent?
LiBr would be classified as ionic because it is formed between a metal (Li) and a non-metal (Br). Ionic bonds are formed when there is a transfer of electrons from the metal to the non-metal, resulting in the formation of positively charged cations (Li+) and negatively charged anions (Br-).
Is LiBr a liquis solid or gas?
LiBr is a solid at room temperature and pressure. It has a melting point of 547 degrees Celsius and boils at around 1265 degrees Celsius.
What is the name of formula LiBr?
The name of the chemical compound LiBr is lithium bromide. It is composed of lithium cations (Li+) and bromide anions (Br-).
Is LiBr ionic compound?
Yes, LiBr (lithium bromide) is an ionic compound. It is formed by the transfer of an electron from lithium (Li) to bromine (Br), resulting in the formation of Li+ cation and Br- anion, held together by electrostatic forces.
What type of chemical bond is LiBr?
Lithium bromide (LiBr) forms an ionic bond, where lithium (Li) donates an electron to bromine (Br), resulting in the formation of positively charged lithium ions and negatively charged bromide ions that are attracted to each other.
Is LiBr a polar covalent bond?
No, LiBr is an ionic compound, not a covalent bond. Ionic compounds are formed between a metal (Li) and a non-metal (Br), resulting in the transfer of electrons to create an electrostatic attraction between positive and negative ions.
Which of the following is connected by an ionic bond IC LiBr HCL?
LiBr is connected by an ionic bond, as lithium (Li) is a metal that tends to lose an electron, while bromine (Br) is a non-metal that tends to gain an electron, resulting in the transfer of electrons between them to form an ionic bond. HCL is connected by a covalent bond.
When lithium reacts with bromine to form the compound LiBr each lithium atom?
When lithium reacts with bromine to form the compound LiBr, each lithium atom loses one electron to attain a stable electron configuration. This results in the formation of Li+ ions. The bromine atoms gain one electron each to form Br- ions. The ionic attraction between the Li+ and Br- ions then leads to the formation of the ionic compound LiBr.
Is LiBr a covalent bond?
No, LiBr is an ionic compound made of a lithium cation (Li+) and a bromide anion (Br-). Ionic bonds involve the transfer of electrons from one atom to another, resulting in the attraction between the oppositely charged ions.
