Sulfur, selenium, and tellurium are elements that would have similar properties to oxygen due to their placement in the same group on the Periodic Table (Group 16 or chalcogens). They share similar chemical reactivity and bonding characteristics.
Two elements that would have similar properties are calcium (Ca) and magnesium (Mg). Both elements are alkaline earth metals, have similar reactivity, and form similar compounds. Additionally, they have similar atomic structures with two electrons in their outer shell.
The newest officially discovered elements are Ununquadiumand Ununhexium so, we'll focus on those.Ununquadium will be part of the Carbon series, so we would expect it to have properties similar to those elements (e.g. 4 electrons in the outer shell). The closest relation to it in that group would be Lead.Ununhexium will be part of the Oxygen series, so, again, we would expect it to have properties similar to those elements (e.g. 6 electrons in the outer shell). The closest relation to it in that group would be Polonium, which is also the first radioactive element.
any element in the same group as oxygenmainlysulfurselenium
Rubidium and francium would have properties most similar to cesium due to their locations near cesium on the periodic table. They share similar chemical reactivity and physical properties such as low melting and boiling points, softness, and high reactivity with water.
Lithium (Li), potassium (K), and cesium (Cs) have similar properties to sodium as they are all alkali metals with one valence electron. They react similarly with water and oxygen, forming similar compounds and exhibiting similar chemical behavior.
Elements showing properties similar to oxygen would be those that are found in the same group as oxygen (group 6A, or 16). Those would be sulfur (S), and selenium (Se)
a) nitrogen b) fluorine c) oxide iond) nitride ion e) sulfurOut of these options, the correct answer is e) sulfur. Sulfur is the chemical species that would be expected to have a properties most similar to oxygen.
Elements in the same group as zinc would be expected to have similar properties.
Two elements that would have similar properties are calcium (Ca) and magnesium (Mg). Both elements are alkaline earth metals, have similar reactivity, and form similar compounds. Additionally, they have similar atomic structures with two electrons in their outer shell.
Rb
The newest officially discovered elements are Ununquadiumand Ununhexium so, we'll focus on those.Ununquadium will be part of the Carbon series, so we would expect it to have properties similar to those elements (e.g. 4 electrons in the outer shell). The closest relation to it in that group would be Lead.Ununhexium will be part of the Oxygen series, so, again, we would expect it to have properties similar to those elements (e.g. 6 electrons in the outer shell). The closest relation to it in that group would be Polonium, which is also the first radioactive element.
any element in the same group as oxygenmainlysulfurselenium
Elements in a same group have same number of valence electrons and hence similar physical and chemical properties.
You would likely find five elements with very similar properties in the same group of the periodic table. For example, elements in Group 1 (alkali metals) like lithium, sodium, potassium, rubidium, and cesium share similar characteristics such as being soft, highly reactive metals with low melting points and easily losing electron to form cations.
Elements in the periodic table that are similar to sulfur would be oxygen, and selenium
Rubidium and francium would have properties most similar to cesium due to their locations near cesium on the periodic table. They share similar chemical reactivity and physical properties such as low melting and boiling points, softness, and high reactivity with water.
Lithium (Li), potassium (K), and cesium (Cs) have similar properties to sodium as they are all alkali metals with one valence electron. They react similarly with water and oxygen, forming similar compounds and exhibiting similar chemical behavior.