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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.
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Is the chemical formula KBr an ionic compound?
Yes, the chemical formula KBr represents an ionic compound. KBr is composed of a metal cation (K+) and a nonmetal anion (Br-) that are held together by ionic bonds due to the transfer of electrons from the metal to the nonmetal.
Is KBr an Ionic compound?
Yes, KBr is ionic. The difference in electronegativity is 2, therefore, it is ionic. K is the cation and Br is the anion.
What is the name of this ionic compound of Kbr?
The name of this ionic compound is potassium bromide (KBr), which consists of positively charged potassium ions (K+) and negatively charged bromide ions (Br-).
What compounds contains an ionic bond out of NH3 Kbr Co2 CCl4?
KBr (potassium bromide) is the compound that contains an ionic bond. Ionic bonds form between a metal and a nonmetal, and in this case, potassium (K) is a metal and bromine (Br) is a nonmetal, resulting in an ionic bond.
Is KBr ionic or molecular?
KBr is an ionic compound because it is composed of a metal cation (K⁺) and a nonmetal anion (Br⁻). Ionic compounds typically form between metals and nonmetals, leading to the transfer of electrons and the formation of charged particles.
Is the chemical formula KBr an ionic compound?
Yes, the chemical formula KBr represents an ionic compound. KBr is composed of a metal cation (K+) and a nonmetal anion (Br-) that are held together by ionic bonds due to the transfer of electrons from the metal to the nonmetal.
Is KBr an Ionic compound?
Yes, KBr is ionic. The difference in electronegativity is 2, therefore, it is ionic. K is the cation and Br is the anion.
What is the name of this ionic compound of Kbr?
The name of this ionic compound is potassium bromide (KBr), which consists of positively charged potassium ions (K+) and negatively charged bromide ions (Br-).
What compounds contains an ionic bond out of NH3 Kbr Co2 CCl4?
KBr (potassium bromide) is the compound that contains an ionic bond. Ionic bonds form between a metal and a nonmetal, and in this case, potassium (K) is a metal and bromine (Br) is a nonmetal, resulting in an ionic bond.
Is KBr ionic or molecular?
KBr is an ionic compound because it is composed of a metal cation (K⁺) and a nonmetal anion (Br⁻). Ionic compounds typically form between metals and nonmetals, leading to the transfer of electrons and the formation of charged particles.
KBr is an example of what?
KBr, or potassium bromide, is an example of an ionic compound. It is formed by the combination of a metal (potassium) and a non-metal (bromine) through ionic bonding. Potassium bromide is often used in medicine and photography.
Why does KBr have a higher melting point than CH3CHO?
KBr has a higher melting point than CH3CHO because KBr is an ionic compound with strong electrostatic forces between its ions, while CH3CHO is a covalent compound with weaker intermolecular forces.
KBr is what type of bonding?
It is an ionic bond.
Is KBr expected to be ionic or molecular?
KBr (Potassium Bromide) is a ionic compound because a metal (potassium) is bonded to a nonmetal (bromine)
Which will dissociate when placed in water a. CH3OH b. HCl c. KBr d. HClO4?
KBr, because it is an ionic compound, and many ionic compounds dissociate in water.
What compound does bromine potassium stand for?
Bromine potassium typically refers to potassium bromide, which is a chemical compound made of potassium and bromine atoms. It is commonly used in photography, as a sedative in veterinary medicine, and as a precursor for other chemicals.
What kind of bond is kbr?
Potassium bromide (KBr) is an ionic bond, formed between a metal (potassium) and a non-metal (bromine). Ionic bonds are formed through the transfer of electrons from one atom to another, resulting in the attraction between oppositely charged ions.
