If the question is "What is the likely bond angle for selenium hydride," then the answer is 105 degrees, just like a water molecule.
Fluorine and selenium can form a type of bond known as a covalent bond, where they share electrons to achieve a stable electron configuration. In this bond, both fluorine and selenium atoms contribute to the bond by sharing electrons rather than transferring them completely.
Sulfur and selenium form a covalent bond when they bond together, as both are nonmetals. In a covalent bond, the atoms share electron pairs to achieve a stable configuration.
Lithium hydride is an ionic compound.
Potassium and selenium can form an ionic bond, where potassium will donate an electron to selenium to achieve a stable electron configuration. This results in the formation of potassium selenide (K2Se).
Ionic bond is formed in K2Se
Calcium and selenium would likely form an ionic bond, with calcium losing 2 electrons to become a positively charged ion and selenium gaining 2 electrons to become a negatively charged ion.
The bond angle in PH5 would likely be close to 90 degrees since phosphorus can accommodate five bonding pairs around it in a trigonal bipyramidal geometry. However, due to the repulsion between the bonding pairs, the actual bond angle may deviate slightly from the ideal angle of 90 degrees.
Selenium and sulfur are both chalcogens and can form covalent bonds with each other. In their compounds, they are more likely to form covalent bonds rather than ionic bonds due to their similar electronegativities. The bond between selenium and sulfur would likely be a covalent bond.
No, selenium and bromine would not form a covalent bond. Bromine typically forms ionic bonds with other elements due to its high electronegativity, while selenium can form covalent bonds with other nonmetals. In this case, selenium and bromine would likely form an ionic bond rather than a covalent bond.
SeH2 is the chemical formula for hydrogen selenide, which is a colorless, poisonous gas with a characteristic foul odor. It is formed from the reaction of selenium with hydrogen gas. Its main application is in the production of semiconductors and certain organic compounds.
The covalent bond between hydrogen and selenium is known as a hydrogen-selenium bond.
CaH2, calcium hydride, is ionic., Ca2+ 2H-
Fluorine and selenium can form a type of bond known as a covalent bond, where they share electrons to achieve a stable electron configuration. In this bond, both fluorine and selenium atoms contribute to the bond by sharing electrons rather than transferring them completely.
Sulfur and selenium form a covalent bond when they bond together, as both are nonmetals. In a covalent bond, the atoms share electron pairs to achieve a stable configuration.
Nitrogen hydride, also known as ammonia, is a covalent bond. It consists of two nonmetals, nitrogen and hydrogen, sharing electron pairs to form a stable molecule.
CuH, copper hydride is possible, but the bond is weak and unstable.
Lithium hydride is an ionic compound.