Yes, halons contain halogens such as bromine, fluorine, or chlorine, which are highly reactive with oxygen. This property allows halons to be effective in fire suppression by chemically interrupting the combustion process. However, the use of halons has been largely phased out due to their ozone-depleting properties.
Yes, halons contain halogen atoms that are highly effective at disrupting chemical reactions involving oxygen, making them effective in extinguishing fires by interrupting the combustion process. However, halons contribute to ozone depletion and are no longer widely used due to their harmful environmental impact.
Group 1 (alkali metals) and Group 17 (halogens) in the periodic table contain elements that are highly reactive and are never found in their free state in nature. Alkali metals readily react with water or air, while halogens are highly reactive nonmetals that form compounds with other elements quickly.
All halogens have seven valence electrons in their outermost energy level, making them highly reactive nonmetals.
because to be stable they need 8 atoms in outer energy level halogens need one so are highly reactive. alkali need 7 so are highly reactive( not as highly as halogens)
Germanium is not highly reactive under normal conditions. It is a metalloid that is more reactive than silicon but less reactive than metals like lithium or sodium. Germanium does react with strong oxidizing agents or halogens but is relatively stable in air.
Yes, halons contain halogen atoms that are highly effective at disrupting chemical reactions involving oxygen, making them effective in extinguishing fires by interrupting the combustion process. However, halons contribute to ozone depletion and are no longer widely used due to their harmful environmental impact.
because to be stable they need 8 atoms in outer energy level halogens need one so are highly reactive. alkali need 7 so are highly reactive( not as highly as halogens)
because to be stable they need 8 atoms in outer energy level halogens need one so are highly reactive. alkali need 7 so are highly reactive( not as highly as halogens)
all of the halogens: bromine, fluorine, oxygen, chlorine and iodine. and it is highly reactive with water.
Halogens.
Group 1 (alkali metals) and Group 17 (halogens) in the periodic table contain elements that are highly reactive and are never found in their free state in nature. Alkali metals readily react with water or air, while halogens are highly reactive nonmetals that form compounds with other elements quickly.
Halogens have high reactivity because they have a strong tendency to gain an electron to achieve a stable electron configuration. This reactivity decreases as you move down the group from fluorine to iodine.
Group 17 (known as Halogens)
Halogens are highly reactive chemical elements.
All halogens have seven valence electrons in their outermost energy level, making them highly reactive nonmetals.
Halogens, such as fluorine, chlorine, and bromine, are highly reactive non-metal elements that readily form salts with metals. They easily gain an electron to achieve a full outer electron shell and form ionic compounds with metals.
Group 17 - the Halogens