The most accurate name for the covalent compound P₂O₃ is diphosphorus trioxide. In this name, "di-" indicates the presence of two phosphorus atoms, while "trioxide" signifies three oxygen atoms in the compound. This nomenclature follows the rules for naming binary covalent compounds, which often use prefixes to denote the number of each type of atom.
Not necessarily although it does occur in nature the most.
H2O is a covalent compound. As hydrogen has only one electron in its outer most shell and oxygen has six electrons in its last shell. Oxygen needs two, while hydrogen requires only one electron to complete its last octave. So oxygen form two covalent bond with two hydrogen atoms. So, water is a covalent compound, but as oxygen is second most electronegative element in the periodic table so due to its high electronegativity the bond no more remains pure covalent, but converted to polar covalent. Hence, water molecule is a polar covalent compound.
Molecule. A nonmetal to nonmetal covalent bond. Electronegativity is not variant enough among the nonmetals to form ionic bonds.
They are all assumed to be 100% accurate so there isn't one that is "most accurate".
Most are not that accurate. The most accurate "balance beam" scale is accurate to about plus or minus 5 milligrams (5/1000ths of a gram).
water
water
Most are Covalent
The covalent bond.
"covalent" OR "covalent bond"
What is most accurate about communication
Hydrocyanic acid is covalent, as are most acids
Most foods contain covalent bonds in their molecular structures. Covalent bonds are formed when atoms share electrons to create a stable molecule, so most organic compounds found in food such as carbohydrates, lipids, and proteins have covalent bonds.
Most Ionically bonded substances are solid, this makes me assume that Rubbing alcohol has covalent bonds.
An insulator is most likely to have covalent bonds, which involve the sharing of electrons between atoms. Covalent bonds are strong and can lead to stable structures that do not conduct electricity well.
oxygen normally forms a convalent bond with one or two other oxygen atoms. as well as oxygen atoms forming oxygen molecules, oxygen atoms tend to form bonds with most of the other elements to form oxides. oxygen atoms on there own are rare. as for phosphorous.........
It is used to form molecules and various compounds. In fact, most of the bonds are covalent bonds.