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How many elements discovered in chlorine?
Chlorine is a chemical element with atomic number 17, which means it has 17 protons in its nucleus. In its natural form, it has two stable isotopes, chlorine-35 and chlorine-37. These isotopes have different numbers of neutrons but the same number of protons, making them the same element.
What type of bond will sulfur and chlorine?
Sulfur and chlorine will likely form a covalent bond, where they share electrons to achieve a stable electron configuration. This is because sulfur and chlorine are both nonmetals and tend to form covalent bonds with each other.
What type of chemical bond is chlorine dioxide?
Chlorine dioxide forms covalent bonds. It is a compound composed of covalent bonds between chlorine and oxygen atoms.
What element would a metal like sodium most likely combine with?
Sodium would most likely combine with an element like chlorine to form sodium chloride, which is a common type of salt. This type of combination typically involves sodium donating an electron to chlorine to form a stable ionic bond.
What type of bound can element einsteinium?
Einsteinium is a radioactive element that is man-made and does not occur naturally in the environment. It is a synthetic element with no known biological function.
What type of bond can be formed with an element of 17 protons and 17 protons?
A covalent bond; chlorine is found as Cl2.
What type of element tends to lose electrons which form bonds?
Non-metals
What are 3 examples of element?
Sodium, Aluminium, Chlorine gas....every thing that are in its element form or only consist of one type of atom is called element.
How many elements discovered in chlorine?
Chlorine is a chemical element with atomic number 17, which means it has 17 protons in its nucleus. In its natural form, it has two stable isotopes, chlorine-35 and chlorine-37. These isotopes have different numbers of neutrons but the same number of protons, making them the same element.
What type of bond will sulfur and chlorine?
Sulfur and chlorine will likely form a covalent bond, where they share electrons to achieve a stable electron configuration. This is because sulfur and chlorine are both nonmetals and tend to form covalent bonds with each other.
What type of chemical bond is chlorine dioxide?
Chlorine dioxide forms covalent bonds. It is a compound composed of covalent bonds between chlorine and oxygen atoms.
What element would a metal like sodium most likely combine with?
Sodium would most likely combine with an element like chlorine to form sodium chloride, which is a common type of salt. This type of combination typically involves sodium donating an electron to chlorine to form a stable ionic bond.
A chlorine atom reacts with a sodium atom to form sodium chloride, NaCl. A chlorine atom can also react with another chlorine atom to form a chlorine molecule, Cl2. Which statement BEST explains the behavior of chlorine in these two reactions?
In the reaction with sodium, chlorine gains an electron to achieve a stable electron configuration, forming an ionic bond in sodium chloride. In the reaction with another chlorine atom, they share electrons to achieve a stable electron configuration and form a covalent bond in a chlorine molecule. Both reactions aim to achieve a full outer electron shell and increase stability, but the manner in which electrons are shared or transferred differs based on the type of bond formed.
What type of bound can element einsteinium?
Einsteinium is a radioactive element that is man-made and does not occur naturally in the environment. It is a synthetic element with no known biological function.
What type of bonding occurs in chlorine?
Chlorine usually bonds ionically by gaining one electron.
What type of bonds does fermium form?
Fermium form ionic bonds.
What type of chemical bond can form between an element with 11 protons and an element with 17 protons?
An ionic bond can form between an element with 11 protons (sodium) and an element with 17 protons (chlorine) to create sodium chloride (table salt). Sodium will donate an electron to chlorine, resulting in a stable arrangement of electronic configuration in both atoms.
