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What are stable electron configurations most likely to contain?

Stable electron configurations are most likely to contain filled energy levels or filled subshells. These configurations generally follow the octet rule or duet rule, depending on the element. Additionally, stable electron configurations may contain configurations with a full valence shell of electrons.


What have stable electron configurations?

any time there are as many electrons and protons and they fill each orbital optimally.


When atoms share electrons to fill their outermost energy levels they form?

When atoms share electrons to fill their outermost energy levels, they form covalent bonds. In a covalent bond, electrons are shared between atoms to achieve stable electron configurations.


Noble gas electron configuration of selenium and phosphorus?

The noble gas electron configuration of selenium is [Ar] 3d^10 4s^2 4p^4 and for phosphorus is [Ne] 3s^2 3p^3. These configurations indicate how the electrons are arranged in the outermost energy levels of the atoms, resembling the stable electron configurations of noble gases.


What is a pseudo-noble gas?

Although the formation of an octet is the most stable electron configuration, other electron configurations provide stability. These relatively stable electron arrangements are referred to a pseudo-noble gas configuration. Although the formation of an octet is the most stable electron configuration, other electron configurations provide stability. These relatively stable electron arrangements are referred to a pseudo-noble gas configuration.


What is inert gas configuration?

Inert gas configurations refer to the electron configurations of noble gases, which have a full outer electron shell. These configurations are very stable and unreactive due to their complete outer energy level. Other elements may strive to attain such configurations through chemical bonding to achieve greater stability.


How do elements achieve stable electron configurations between two atoms?

protons


What are stable electron configurations are likely to contain?

completely filled valence shells


What happen when electron change energy level?

When an electron changes energy levels in an atom, it absorbs or emits energy in the form of a photon. This photon can have a specific wavelength corresponding to the energy difference between the initial and final energy levels of the electron. This process is fundamental to the emission and absorption of light in atoms.


Explain why Krypton and Xenon do not readily react to form compounds?

Krypton and Xenon are noble gases with stable electron configurations, making them very unreactive. They have a full outer electron shell, which makes them thermodynamically stable and unlikely to form chemical bonds with other elements. Additionally, the energy required to break their stable electron configurations and form compounds is usually very high, making the reaction unfavorable.


Do Helium Xenon and Neon have stable electron configurations?

Yes, helium, xenon, and neon all have stable electron configurations. Helium has a full outer electron shell with 2 electrons, xenon has a full outer shell with 8 electrons, and neon has a full outer shell with 8 electrons as well.


Why An electron in an atom has several excited states but only one ground state?

An electron in an atom has several excited states because it can occupy various higher energy levels when it absorbs energy, allowing for multiple configurations of energy distribution. In contrast, the ground state represents the lowest energy configuration of the electron, where it is most stable and all energy levels are filled according to the principles of quantum mechanics. This stability and uniqueness of the ground state arise from the specific arrangement of electrons that minimizes the atom's energy. Hence, while multiple excited states can exist, there is only one ground state.