I don't bloody know mate!
ReactivityThe ease and speed with which an element combines with other elements and compounds is called the "reactivity" of the element.
ReactivityThe ease and speed with which an element combines with other elements and compounds is called the "reactivity" of the element.
ReactivityThe ease and speed with which an element combines with other elements and compounds is called the "reactivity" of the element.
ReactivityThe ease and speed with which an element combines with other elements and compounds is called the "reactivity" of the element.
ReactivityThe ease and speed with which an element combines with other elements and compounds is called the "reactivity" of the element.
What is reactivity of boron
Having a Pauling electronegativity of 1,9 technetium is considered a medium chemically reactive element. Technetium react with oxygen, halogens, oxygen, sulfur, selenium, tellurium, boron, carbon etc. and can form alloys with metals. Technetium is dissolved in inorganic acids excepting hydrochloric acid. Do not make a confusion between reactivity and radioactivity.
Mixing sulfur, tellurium, phosphorus, and hydrogen may result in the formation of various compounds depending on the conditions. For example, the elements can react to form hydrogen sulfide, phosphine, tellurium hydride, or other sulfides, phosphides, or tellurides. It is important to note that chemical reactions between these elements can be complex and may require specific conditions for certain compounds to form.
Selenium can be reactive and form compounds with other elements. It reacts with oxygen to form oxides and with water to form various compounds. However, it is less reactive compared to other elements in the same group like sulfur and tellurium.
Yes, californium can form compounds with other elements due to its radioactive nature and high reactivity. It can potentially combine with elements such as oxygen, nitrogen, and halogens to form various compounds.
The significance of boron electronegativity in chemical bonding and reactivity lies in its ability to form covalent bonds with other elements. Boron's relatively low electronegativity allows it to easily share electrons with other elements, leading to the formation of stable compounds. This property also influences boron's reactivity, as it can participate in a variety of chemical reactions to form different compounds.
Boron is more reactive with other elements compared to carbon. Boron is a metalloid that tends to form covalent compounds in compounds such as borides. Its reactivity is influenced by its electron configuration and small atomic size.