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Chemical Properties of Group - 17 Elements (Part - 3) Video Lecture - NEET

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FAQs on Chemical Properties of Group - 17 Elements (Part - 3) Video Lecture - NEET

1. What are the chemical properties of Group 17 elements?
Ans. Group 17 elements, also known as halogens, exhibit several chemical properties. They have seven valence electrons and tend to gain one electron to achieve a stable octet configuration. Halogens are highly reactive nonmetals and readily form ionic compounds with metals. They are strong oxidizing agents and can react with hydrogen to form hydrogen halides. Additionally, halogens can displace each other from their compounds, with more reactive halogens displacing less reactive ones.
2. How do halogens react with metals?
Ans. Halogens readily react with metals to form ionic compounds known as metal halides. These reactions involve the transfer of electrons from the metal to the halogen. For example, chlorine reacts with sodium to form sodium chloride, where chlorine gains an electron from sodium to achieve a stable electron configuration. The reactivity of halogens decreases down the group, with fluorine being the most reactive and iodine being the least reactive.
3. What makes halogens strong oxidizing agents?
Ans. Halogens are strong oxidizing agents due to their high electronegativity and ability to gain an electron. They have a strong tendency to attract electrons from other elements, making them effective in oxidizing other substances. Halogens readily accept an electron to form a negatively charged halide ion, while the substance being oxidized loses electrons and gets oxidized. The oxidizing power of halogens increases from fluorine to iodine, with fluorine being the strongest oxidizing agent.
4. Can halogens react with hydrogen?
Ans. Yes, halogens can react with hydrogen to form hydrogen halides. The reaction between a halogen and hydrogen is highly exothermic and occurs with the transfer of electrons. For example, chlorine reacts with hydrogen to form hydrogen chloride. This reaction is typically carried out in the presence of ultraviolet light or at high temperatures. The hydrogen halides formed are highly acidic and dissolve in water to form hydrohalic acids.
5. How do halogens displace each other from compounds?
Ans. Halogens can displace each other from their compounds based on their relative reactivity. A more reactive halogen can displace a less reactive halogen from its compound. This displacement reaction occurs because the more reactive halogen has a higher tendency to attract electrons and form a more stable halide ion. For example, chlorine can displace bromine from a bromide compound. This displacement reaction is commonly observed in halogen reactions and is used in laboratory experiments.
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