Selenium is more reactive than sulfur because it has a lower ionization energy and higher electronegativity, making it more readily form bonds with other elements. Additionally, its larger atomic size allows for easier electron transfer, enhancing its reactivity compared to sulfur.
Oxygen is more reactive than selenium. Oxygen is a highly reactive element that readily forms compounds with other elements, while selenium is less reactive in comparison. Oxygen's reactivity is evident in its ability to support combustion and oxidation reactions, whereas selenium's reactivity is more limited due to its position in the periodic table.
Selenium is considered a heavy metal (although ironically a non-metal) and when combined with oxygen has relatively weak intramolecular forces that are easily overcome by the strong polarity of water forcing it to ionise. Sulfur ionises less readily
Chlorine is the most active nonmetal out of argon, chlorine, potassium, and selenium. It belongs to the halogen group, which is known for its high reactivity. Chlorine readily reacts with other elements to form compounds.
Selenium is more metallic than oxygen. Oxygen is a non-metal, while selenium is a metalloid that exhibits some properties of metals.
Selenium dioxide has stronger intermolecular forces than sulfur dioxide due to its larger atomic size, making it a solid at room temperature. Sulfur dioxide is a gas because it has weaker intermolecular forces due to its smaller atomic size.
sulfur is more reactive than selenium
The nonmetal in period 4 that is more reactive than selenium is sulfur. Sulfur is located above selenium in the same group (group 16) on the periodic table, making it more reactive due to its higher electronegativity and tendency to gain electrons in chemical reactions.
Oxygen is more reactive than selenium. Oxygen is a highly reactive element that readily forms compounds with other elements, while selenium is less reactive in comparison. Oxygen's reactivity is evident in its ability to support combustion and oxidation reactions, whereas selenium's reactivity is more limited due to its position in the periodic table.
No. Sulfur is more reactive than iron.
Se-Cl bonds
Oxygen is generally more reactive than sulfur. Oxygen is highly electronegative and readily forms bonds with other elements, while sulfur is less reactive and tends to form fewer bonds.
Phosphorus is more reactive than sulfur due to its higher electronegativity and smaller atomic size, which allows it to readily form bonds with other elements. Phosphorus reacts vigorously with oxygen and water, whereas sulfur is less reactive and requires more energy to form compounds.
Sulfur is less reactive than phosphorus. Phosphorus is more likely to form compounds with other elements due to its higher reactivity.
The element found in the same period as sulfur and argon, and more reactive than both, is chlorine. Chlorine is a highly reactive nonmetal that belongs to the same period (or row) as sulfur and argon on the periodic table.
Sodium is more reactive than sulfur because sodium belongs to Group 1 of the periodic table, which means it has one valence electron that it readily gives up to form compounds. Sulfur, on the other hand, belongs to Group 16 and tends to gain electrons to form compounds, making it less reactive than sodium.
Sulfur is generally less reactive than nitrogen because sulfur forms weaker bonds and has a larger atomic radius. Nitrogen is more reactive due to its ability to form stable triple bonds and its smaller atomic size, which allows for stronger interactions with other elements.
Yes. Fluorine is extremely reactive, it has a weak F-F bond and readiliy forms the F- ion