because polyatomic bonds are like ionic bonds where at least it contains a metal and a non-metal.usually in ionic bonds sometimes it's the same thing.also covalent bonds because think of water (h20) the oxygen atom has 6 electrons in it's second shell.it needs two more so that shell is complete two hydrogen atoms can do this job plus that hydrogen atoms have 1 electron in it's first shell and it want's another because the first shell can hold two electrons. all these not complete atoms are like the polyatomic because usually one is non-metal and the other is a metal.
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.
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.
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.
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.
BrO3- is an ionic compound. It consists of the bromine ion (Br-) and the polyatomic ion bromate (BrO3-), which is a combination of covalent and ionic bonds.
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.
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.
Hydrogen is involved in covalent bonds but sometimes also in ionic bonds.
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.
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.
BrO3- is an ionic compound. It consists of the bromine ion (Br-) and the polyatomic ion bromate (BrO3-), which is a combination of covalent and ionic bonds.
A polyatomic ion is charged and will form ionic bonds; for example, the sulfate ion SO42- forms many compounds, such as sodium sulfate. The bonds holding polyatomic ions together are covalent.
No, HgCO3 is not a typical ionic compound. It is a covalent compound because it contains a metal (Hg) and a polyatomic ion (CO3) bound together by covalent bonds.
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.
Ionic bonds and also covalent bonds
Sodium erythorbate contains both ionic and covalent bonds. The bond between sodium and erythorbate is ionic because sodium is a metal while erythorbate is a polyatomic ion. However, within the erythorbate molecule itself, there are covalent bonds holding the atoms together.
The two main types of chemical bonds are ionic and covalent.