you cannot find a covalent bond on a period table dumbfak. On the Periodic Table you can only find elements, at their lowest level.
Nitrogen in N2 as there is a triple bond between two nitrogens.
covalent b/c they are both nonmetals. A covalent bond is between two elements on the right side of the periodic table, an ionic bond is between the left and right side.
The elements to the very left of the table are likely to bond to the elements to the very right of the table. It all depends on the amount of electrons are in the outer shell of the element. A compound of two elements favor filling the outer shell with a total of 8 electrons.
It is a polar covalent bond. I was looking for this answer for chem hw and found just after coming to this page :P
Neither Radon (Rn) is a element. Onlycompoundscan be ionic or covalent.
2 nonmetals would form a covalent bond. Nonmetals are on the right side of the Periodic Table (except for hydrogen).
Nitrogen in N2 as there is a triple bond between two nitrogens.
Elements are found on the periodic table and have a chemical bond
covalent b/c they are both nonmetals. A covalent bond is between two elements on the right side of the periodic table, an ionic bond is between the left and right side.
The NB bond in H3NBCl3 is a covalent bond, which involves the sharing of electrons between the nitrogen and boron atoms. This type of bond is commonly found in molecules containing elements from the same or adjacent groups in the periodic table.
The closer they are to the center of the periodic table, the more likely they are to form covalent bonds. The closer to the edges, the less likely.
Predicting if a covalent compound will be polar or nonpolar based on the elements' positions on the periodic table involves comparing their electronegativities. If the electronegativities of the atoms are similar, the bond is nonpolar. If there is a significant electronegativity difference between the atoms, the bond is polar.
B. Co
Hydrogen (H) is in group 1 of the periodic table and has one valence electron. It typically forms one covalent bond by sharing its electron with another element to achieve a stable electron configuration.
The elements to the very left of the table are likely to bond to the elements to the very right of the table. It all depends on the amount of electrons are in the outer shell of the element. A compound of two elements favor filling the outer shell with a total of 8 electrons.
It is a covalent bond. If you have a periodic table on you, just remember that if ALL elements in the compound are on the right side of the metalloid divide (the stairs/jagged line), then 99.9% of the time, you will have a covalent bond.
B. Co