It is possible for a compound to possess both ionic and covalent bonding. a. If one of the ions is polyatomic then there will be covalent bonding within it. b. When a polyatomic ion combines with another ion, then there is an ionic bond
No, polyatomic compounds can contain both covalent and ionic bonds. Covalent bonds involve the sharing of electrons between atoms, while ionic bonds involve the transfer of electrons from one atom to another. Polyatomic compounds can have bonds of both types within their structure.
Compounds with both ionic and covalent bonds contain polyatomic ions. These ions consist of more than one atom covalently bonded together and carry a net charge, making them act as single units in ionic compounds.
Polyatomic ions can have both ionic and covalent bonds. Ionic bonds are formed between the positively and negatively charged ions within the polyatomic ion, while covalent bonds are formed by sharing electrons between the atoms within the polyatomic ion.
Magnesium acetate (MgC2H3O2) is ionic. Magnesium is a metal, and acetate is a polyatomic ion consisting of carbon, hydrogen, and oxygen. Ionic compounds form between metals and nonmetals or polyatomic ions.
LiC2H3O2 is an ionic compound. It contains lithium (Li) which is a metal, and acetate (C2H3O2) which is a polyatomic ion with a negative charge. Ionic compounds are formed by the transfer of electrons between a metal and a non-metal or polyatomic ion.
No, polyatomic compounds can contain both covalent and ionic bonds. Covalent bonds involve the sharing of electrons between atoms, while ionic bonds involve the transfer of electrons from one atom to another. Polyatomic compounds can have bonds of both types within their structure.
Compounds with both ionic and covalent bonds contain polyatomic ions. These ions consist of more than one atom covalently bonded together and carry a net charge, making them act as single units in ionic compounds.
Polyatomic ions can have both ionic and covalent bonds. Ionic bonds are formed between the positively and negatively charged ions within the polyatomic ion, while covalent bonds are formed by sharing electrons between the atoms within the polyatomic ion.
Magnesium acetate (MgC2H3O2) is ionic. Magnesium is a metal, and acetate is a polyatomic ion consisting of carbon, hydrogen, and oxygen. Ionic compounds form between metals and nonmetals or polyatomic ions.
LiC2H3O2 is an ionic compound. It contains lithium (Li) which is a metal, and acetate (C2H3O2) which is a polyatomic ion with a negative charge. Ionic compounds are formed by the transfer of electrons between a metal and a non-metal or polyatomic ion.
MgOH is an ionic compound because it is made up of a metal (Mg) and a hydroxide group (OH) which is a polyatomic ion. Ionic compounds typically form between a metal and a non-metal or polyatomic ion.
MgCO3 is a compound made up of an ionic bond between magnesium (Mg) and the polyatomic ion carbonate (CO3). The carbonate ion has covalent bonds within it, but overall the compound is considered to have ionic bonding due to the transfer of electrons between magnesium and carbonate.
Sure! Here are a few examples of ionic and polyatomic compounds using the elements you mentioned: Sodium chloride (NaCl) - ionic compound Calcium nitrate (Ca(NO3)2) - polyatomic compound Calcium hydroxide (Ca(OH)2) - ionic compound Sodium hypochlorite (NaClO) - polyatomic compound
Ag2O is an ionic compound, consisting of positively charged silver ions (Ag+) and negatively charged oxide ions (O2-). It is not covalent or polyatomic.
CaSO4 is a polyatomic ionic compound. It consists of a metal cation (Ca2+) and a polyatomic anion (SO42-) that are attracted to each other through ionic bonds.
Polyatomic ions consist of two or more atoms covalently bonded together. The overall ion has a net charge, resulting in an ionic bond between the charged ions. The covalent bonds within the polyatomic ion hold the atoms together, while the ionic bond between ions in the ion contributes to its overall charge.
A compound can have both ionic and covalent bonds if it contains both ions (formed through ionic bonds) and covalently bonded elements. This can happen when a compound has a combination of ionic and covalent characteristics, such as in the case of polyatomic ions or molecules with polar covalent bonds.