Ionic compounds: conduct electricity, dissolve in water, are usually in lattice structures (crystal-like), is made from a metal and a non-metal.
Covalent compounds: weak conduction of electricity if any, will not dissolve in water (not completely, anyway), are usually... not crystal-like (they're softer and squisher, usually), made from a non-metal and a non-metal.
covalent compounds is two nonmetals. example: phosphorus and oxygen are a covalent compound. ionic compounds is when you have a metal and a nonmetal or a metal and a polyatomic.
This is a compound sentence, and it smells bad.
Dont resTATE THE QUETION!
The words "covalent" and "ionic" refer to bonds between atoms, and not atoms themselves. If you are referring to O2 and F2, the forms in which we find oxygen and fluorine, respectively, then the bond between the two oxygens is considered to be non-polar and covalent. The same can be said of the bond between the two fluorine atoms in F2. If you are referring to the bonds in the compound formed by oxygen and fluorine, you must first identify that compound. It is OF2, and is named "fluorine oxide". The bonds between the oxygen and fluorine in fluorine oxide are slightly polar and covalent. The determining property is "electronegativity", which you should look up and review. By convention, when the electronegativity difference between atoms is: < about 0.4, the bond between them is non-polar and covalent between about 0.4 - 1.7, then bond between them is polar and covalent > 1.7, then bond between them is ionic.
It is a compound of tin and fluorine (if it has two parts to its name or ends in -ide, it is not an element).
covalent compounds is two nonmetals. example: phosphorus and oxygen are a covalent compound. ionic compounds is when you have a metal and a nonmetal or a metal and a polyatomic.
formulas alllow scientists to identify the compisition of a compound
No, it is not.
Stuff it up ur a**
No, it is not.
Generally compounds formed between nonmetals are covalent.
Hg
This is a compound sentence, and it smells bad.
Dont resTATE THE QUETION!
The words "covalent" and "ionic" refer to bonds between atoms, and not atoms themselves. If you are referring to O2 and F2, the forms in which we find oxygen and fluorine, respectively, then the bond between the two oxygens is considered to be non-polar and covalent. The same can be said of the bond between the two fluorine atoms in F2. If you are referring to the bonds in the compound formed by oxygen and fluorine, you must first identify that compound. It is OF2, and is named "fluorine oxide". The bonds between the oxygen and fluorine in fluorine oxide are slightly polar and covalent. The determining property is "electronegativity", which you should look up and review. By convention, when the electronegativity difference between atoms is: < about 0.4, the bond between them is non-polar and covalent between about 0.4 - 1.7, then bond between them is polar and covalent > 1.7, then bond between them is ionic.
Each compound has a specific absorption spectra.
It is a compound of tin and fluorine (if it has two parts to its name or ends in -ide, it is not an element).