Fluoride, Chloride, Bromide, Iodide and astatide
halides
Group 17 elements, also known as the halogens, are the p block elements that react to form halides. They readily react with other elements to form salts called halides, such as sodium chloride (NaCl) and potassium iodide (KI).
Yes, halides can contain silicon. Silicon can form halides by combining with elements such as fluorine, chlorine, bromine, and iodine to create silicon halides. Examples of silicon halides include silicon tetrafluoride (SiF4) and silicon tetrachloride (SiCl4).
Nonsilicate
These are types of chemical compounds. Halides contain halogen elements (e.g. chloride, fluoride), oxides contain oxygen, sulfates contain sulfate ions, sulfides contain sulfide ions, carbonates contain carbonate ions, and native elements are pure forms of elements (e.g. gold, silver).
Elements that are likely to react with calcium include oxygen, chlorine, fluorine, and sulfur. Oxygen can form oxides of calcium, while chlorine and fluorine can form calcium halides. Sulfur can react with calcium to form calcium sulfide.
Halides with 7 valence electrons typically have a -1 charge, such as chlorine (Cl-) and bromine (Br-). These elements can easily gain one electron to form a stable octet configuration.
well halides have usually other atoms in it but these halides have fluorine chlorine and calcium
Pseudo halides have similar properties and reactivity to traditional halides, but they are not true halides. They can act as halogens in chemical reactions, but they may have different characteristics due to their structure. Overall, pseudo halides exhibit some similarities and differences compared to traditional halides.
1. If you think to halogens: fluorine, chlorine, iodine, bromine, astatine, ununseptium 2. If you think to chemical compounds: halides or halogenides are the binary compounds with metals of the above mentioned elements (but also exist organic halides, etc.). Some halides exist as natural minerals.
The major mineral groups are silicates, carbonates, sulfates, halides, oxides, sulfides, native elements, and phosphates. These groups are classified based on the chemical composition and structure of the minerals.
Rutherfordium halides have limited practical uses due to the element's high radioactivity and limited availability. They are primarily used for scientific research purposes related to studying the properties of superheavy elements.