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Yes, phosphorus can expand its octet in chemical bonding by forming more than 8 valence electrons in its outer shell.

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8mo ago

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Related Questions

Can oxygen expand its octet in chemical bonding?

Yes, oxygen can expand its octet in chemical bonding by forming more than eight valence electrons in its outer shell.


Can sulfur exceed the octet rule in chemical bonding?

Yes, sulfur can exceed the octet rule in chemical bonding by expanding its valence shell to accommodate more than eight electrons.


What is the optimum number of electrons for phosphorous to possess in its outermost closed shell?

The optimum number of electrons in the outermost valence shell for phosphorus atoms is eight, known as an octet. Unbonded phosphorus atoms have 5 valence electrons and undergo chemical bonding in order to gain the other 3, either by covalent bonding or by ionic bonding.


Chemical formula for phosphorus?

Phosphide itself is not much. I think what you mean is the phosphide ION. The formula for phosphorus is P, as you must know, but the phosphide ion is P3- ( the ionic charge being in superscript) And it is so because when bonding, Phosphorus will gain three more electrons to complete its full octet as before bonding, it only has 5 electrons in its valence shell.


Does uranium have an octet?

Uranium typically forms compounds where it does not have an octet due to its ability to expand its valence shell beyond eight electrons. Uranium can often exceed the octet rule in its bonding arrangements.


Phosphorus will electrons to complete its octet changing it into a(n) .?

Phosphorus need 3 electrons to complete its octet.


Does AsH3 follow the octet rule?

No, AsH3 does not follow the octet rule. Arsenic, the central atom in AsH3, can expand its valence shell to hold more than eight electrons in bonding.


Why is PCL5 form but NCL5 not form?

PCl5 (phosphorus pentachloride) forms because phosphorus can expand its octet and accommodate more than eight electrons due to the availability of d-orbitals, allowing it to bond with five chlorine atoms. In contrast, NCl5 (nitrogen pentachloride) does not form because nitrogen cannot expand its octet; it only has four valence electrons and is limited to forming a maximum of four bonds, typically resulting in stable compounds like NCl3 (nitrogen trichloride). This limitation is due to nitrogen's smaller size and lack of available d-orbitals for bonding.


What type of chemical bond does phosphorus and fluorine form?

Phosphorus and fluorine typically form a covalent bond, where the atoms share electrons to achieve a stable octet configuration. This results in the formation of molecules such as phosphorus pentafluoride (PF5).


In which bonding patterns does X obey the octet rule?

no it does not follow octet rule


Can carbon expand its octet beyond four valence electrons?

No, carbon cannot expand its octet beyond four valence electrons.


Why is pcl5 an exception to the octet rule while pcl3 not?

PCl5 is an exception to the octet rule because phosphorus, the central atom, can expand its octet to accommodate more than eight electrons due to the availability of d-orbitals in its valence shell. In PCl5, phosphorus forms five bonds with chlorine atoms, allowing it to hold ten electrons. In contrast, PCl3 adheres to the octet rule, as phosphorus forms only three bonds with chlorine, resulting in a stable configuration with eight electrons around it. Thus, PCl5 exhibits expanded valence shell capabilities, while PCl3 does not.