Halogens are reactive and they react with noble gases because they are not satisfied with the numbers of electrons they've got
Halogens are more chemically reactive compared to noble gases. Halogens have a high tendency to gain an electron to achieve a stable electron configuration, while noble gases already have a full outer electron shell and are therefore less likely to react with other elements.
No, they are not. Fluorine, chlorine, and iodine are halogens, meaning they have 7 valence shell electrons. They are the second most nonreactive group of elements, besides the noble gases, which have 8 and do not react at all.
Halogens are highly reactive due to their tendency to gain an electron to achieve a stable electron configuration, while noble gases are already stable and do not readily react with other elements. Halogens are typically electronegative, whereas noble gases have very low electronegativity. This difference in reactivity and electron affinity leads to halogens forming compounds easily, while noble gases tend to exist as isolated atoms.
Very much so. The only group that isn't reactive is the Noble gases, however even some noble gases will react under the right conditions.
Because noble gases don't need to give or take any electrons - they have a perfect octet configuration. Where as halogens need to gain or lose electrons and will easily react to other halogens that need to lose or gain.
Halogens are more chemically reactive compared to noble gases. Halogens have a high tendency to gain an electron to achieve a stable electron configuration, while noble gases already have a full outer electron shell and are therefore less likely to react with other elements.
No, they are not. Fluorine, chlorine, and iodine are halogens, meaning they have 7 valence shell electrons. They are the second most nonreactive group of elements, besides the noble gases, which have 8 and do not react at all.
noble gases really are just that: noble. they dont react to things easily. halogens on the other hand, do react extremely easily. that is one of the main differences between the two.
it makes a colored evaporation with halogens and noble gases -Sferato Shenan P.H.D
Halogens are highly reactive due to their tendency to gain an electron to achieve a stable electron configuration, while noble gases are already stable and do not readily react with other elements. Halogens are typically electronegative, whereas noble gases have very low electronegativity. This difference in reactivity and electron affinity leads to halogens forming compounds easily, while noble gases tend to exist as isolated atoms.
Very much so. The only group that isn't reactive is the Noble gases, however even some noble gases will react under the right conditions.
Because noble gases don't need to give or take any electrons - they have a perfect octet configuration. Where as halogens need to gain or lose electrons and will easily react to other halogens that need to lose or gain.
Halogens are highly reactive elements due to their strong tendency to gain one electron to achieve a stable electron configuration, typically resembling that of noble gases. However, noble gases are generally inert and do not readily react because they already possess a full valence shell. While halogens might not commonly react with noble gases under standard conditions, certain conditions (like high energy or specific compounds) can lead to the formation of stable compounds, such as noble gas halides, due to the unique electronic interactions involved. Overall, the likelihood of reaction is low but possible in specific scenarios.
halogens are much more reactive
These are the so-called noble gases.
Helium is the only perfectly inert element, although there are several other inert elements which can be made to react with fluorine only with great difficulty, by the use of high temperature and pressure.
Group 17 elements are called halogens, which include fluorine, chlorine, bromine, iodine, and astatine. Group 18 elements are called noble gases, which include helium, neon, argon, krypton, xenon, and radon.