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Can phosphorus expand its octet in chemical bonding?
Yes, phosphorus can expand its octet in chemical bonding by forming more than 8 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.
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.
Can carbon expand its octet beyond four valence electrons?
No, carbon cannot expand its octet beyond four valence electrons.
Can xenon expand its octet?
No, xenon cannot expand its octet because it is a noble gas with a stable electronic configuration of eight valence electrons.
Can phosphorus expand its octet in chemical bonding?
Yes, phosphorus can expand its octet in chemical bonding by forming more than 8 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.
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.
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.
How a sulfur atom can achieve a stable octet?
A sulfur atom can achieve a stable octet by gaining or sharing electrons through chemical bonding. It has six valence electrons and needs two more to complete its octet. This can occur by forming covalent bonds with other atoms, such as hydrogen or oxygen, where it shares electrons. Alternatively, sulfur can also gain two electrons through ionic bonding, resulting in a stable electron configuration.
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.
Can xenon expand its octet?
No, xenon cannot expand its octet because it is a noble gas with a stable electronic configuration of eight valence electrons.
What are the electrons in the outermost orbital used in chemical bonding called?
The electrons in the outermost orbital used in chemical bonding are called valence electrons. They are involved in forming bonds with other atoms to complete the octet rule and achieve stability.
Why in the world would an atom want to become stable?
Atoms are not sentient. They undergo chemical bonding and chemical reactions in order to have lower energy, which makes them stable. Typically this means either sharing electrons to get an octet of electrons, or transferring electrons so they get an octet of electrons. This is not a conscious decision on their part.
What is the Lewis diagram of CO and how does it represent the bonding between carbon and oxygen atoms?
The Lewis diagram of CO shows a carbon atom with two valence electrons bonded to an oxygen atom with six valence electrons. The diagram represents a double bond between the carbon and oxygen atoms, where they share two pairs of electrons to achieve a stable octet configuration. This bonding arrangement allows both atoms to fulfill the octet rule and form a stable molecule.
What is covalent bonding like?
Covalent bonding is when 2 atoms, usually non-metals, bond together by sharing electrons with one another. For example, in oxygen gas, one oxygen atom will share 2 electrons with the other so that both atoms can achieve the octet structure.
