Neon has completely filled valence orbitals, obeys octet rule and is hence stable. Chlorine needs one more electron to complete octet and is hence reactive.
Neon is more stable than chlorine because neon is a noble gas with a full outer shell of electrons, making it very unreactive and stable. Chlorine, on the other hand, is a halogen that is highly reactive due to its need to gain one electron to achieve a full outer shell. This reactivity makes chlorine less stable than neon.
Neon is more stable than carbon because it has a full set of electrons in its outer shell, making it incredibly stable and unreactive. Carbon, on the other hand, can form a variety of bonds with other elements, making it more reactive and less stable compared to neon.
Sodium is more reactive than neon. Neon is part of the noble gases group, which are generally unreactive due to their stable electron configuration. In contrast, sodium belongs to the alkali metal group, which are known for their high reactivity due to their tendency to lose an electron to achieve a stable electron configuration.
Metals are generally more stable than non-metals because they tend to have a lower reactivity due to their electron configuration. Non-metals often have a greater tendency to gain electrons to achieve a full outer shell, making them more reactive and less stable in comparison to metals.
Neon is more stable than oxygen because it has a full outer electron shell, meaning it has achieved a more stable electron configuration. Neon's filled outer shell results in a low reactivity, whereas oxygen tends to form bonds to attain a more stable electron configuration.
Lithium is more reactive than neon. Lithium readily reacts with water and oxygen, while neon is a noble gas and is known for its inertness and lack of reactivity.
Neon is more stable than carbon because it has a full set of electrons in its outer shell, making it incredibly stable and unreactive. Carbon, on the other hand, can form a variety of bonds with other elements, making it more reactive and less stable compared to neon.
The element described is chlorine. It has 7 valence electrons, which is more than oxygen but fewer than neon. Chlorine has 17 protons, more than sodium but fewer than argon.
The chloride ion (Cl-) is more stable than the chlorine molecule (Cl2) because the chloride ion has a full outer electron shell, making it more inert and less likely to react. In contrast, the chlorine molecule is reactive and tends to form bonds with other molecules to achieve a more stable electron configuration.
Yes, chlorine is more reactive than neon. This is because chlorine is a halogen and typically reacts with other elements to form compounds, whereas neon is a noble gas and is very stable and unreactive due to its full valence electron shell.
Chlorine is more reactive than other halogens because it has a lower atomic radius and higher electronegativity, making it more eager to gain an electron and achieve a stable electron configuration. This results in chlorine readily forming bonds with other elements to satisfy its electron needs, leading to its high reactivity.
Yes, oxygen is more reactive than neon. Oxygen readily forms chemical compounds with other elements, whereas neon is a noble gas that is extremely stable and does not typically react with other elements.
Cl Chlorine
Chlorine is better as a disinfectant than bleaching powder because it is more stable and has a higher concentration of available chlorine. This means that chlorine is more effective at killing bacteria and viruses. Additionally, chlorine is easier to handle and use in disinfection processes compared to bleaching powder.
Chlorine is more reactive than silicon. Chlorine is a nonmetal that readily reacts with other elements to achieve a stable electron configuration. Silicon, on the other hand, is a metalloid that is less reactive compared to chlorine due to its position in the periodic table.
Chlorine gas is more reactive than hydrogen gas. Chlorine is a halogen and has a stronger tendency to gain electrons during a reaction, making it more reactive. Hydrogen, on the other hand, is more stable and less likely to undergo chemical reactions.
Fluorine is more oxidizing than chlorine because it is smaller in size with higher electronegativity, which enables it to attract electrons more strongly. This makes it more effective at gaining electrons to achieve a stable electron configuration, leading to stronger oxidizing properties compared to chlorine.
Lithium in group 1 is more reactive than neon in group 18. Lithium readily reacts with water and air to form compounds, while neon is a noble gas and is very stable and unreactive due to its full valence shell.