For a homonuclear covalent bond, that the individual atoms have high is irrelevant. Why? Because the participating atoms have EQUAL electronegativity. And thus for atoms of high electronegativity, we would expect to find $X_2$. And for $F_2$, $O_2$, $N_2$ do we not COMMONLY FIND, covalent, binuclear molecules?
Ionic bonds are bonds between two who has a large difference in . For instance Sodium chloride: $NaCl.$ Sodium have a low electronegativity and chloride have a very high electronegativity....
Comparing their electronegativities will help determine the type of bond. is the tendency of a bonded atom to attract shared electrons to itself. The difference in electronegativity $(Delta"EN")$ is used...
The modern covalent bond is conceived to be a region of high electron between 2 positively charged atomic nuclei such that nucleus/nucleus repulsion is negated, and a net attractive force...
to answer EXACTLY your question: "In an ionic bond, the atom with the highest will always form what type of bond?" the answer is: Ionic! to correct what i think...
The electronegativity of the atoms involved in a covalent bond determines which will have more pull on the electrons shared between them. Because all atoms have different electronegativities, the only...
Non polar covalent bond is the bond formed between two similar atoms in which the Electronegativity difference is zero eg - H---H While in polar covalent bond , there is...
Both bonds result in forming of differentiating properties and structures. Atoms react in order to achieve stability. However, covalent bonds have a unique property that ionic bonds do not...
Where the $delta$ symbol denotes a little bit of (or partial) positive or negative charge. Dipoles are drawn from positive to negative. The overall dipole moment is the vector sum...
The modern covalent bond is conceived to be a region of high electron between two positively charged atomic nuclei such that nucleus-nucleus repulsion is negated, and a net attractive forces...
The answer is (C) have polar covalent bonds with a partial negative charge on the hydrogen atoms. If you only go by the options given, the answer will be obvious...