Fluorine would be the more reactive element because it needs to gain one electron. While Barium needs to gain two electrons. Thus it is easier to gain one than to lose two.
Fluorine is an element and barium is also an element. There is no fluorine in barium and not barium in fluorine.
A fluorine atom would be more reactive than a carbon atom because fluorine is more electronegative and has a stronger tendency to attract electrons. This means that fluorine is more likely to participate in chemical reactions to achieve a stable electron configuration.
Cesium is more reactive than barium. Cesium is located lower down in Group 1 of the periodic table, making it more reactive than barium, which is further up the group. Cesium readily reacts with air and water, while barium is less reactive in comparison.
Barium is more reactive than magnesium, and beryllium is less reactive than both. Reactivity generally increases as you move down a group on the periodic table, so barium is more reactive than magnesium due to its position in the same group.
Yes, fluorine is more reactive than arsenic. Fluorine is a highly reactive non-metal element, whereas arsenic is a metalloid that exhibits less reactivity compared to fluorine.
Fluorine is more reactive than boron. Fluorine is the most reactive non-metal element and readily forms compounds with other elements, while boron is a metalloid that is less reactive than fluorine.
Yes, fluorine is more reactive than acylchloride. Fluorine is the most reactive nonmetal due to its high electronegativity and small atomic size, whereas acyl chlorides are reactive, but less so compared to fluorine.
Yes. Fluorine is extremely reactive, it has a weak F-F bond and readiliy forms the F- ion
Yes, it is.
Fluorine is the most reactive element period. So, it is therefore more reactive than carbon. However, as carbon forms the basis of organic molecules, people come across its compounds more often.
phosphorous is a highly reactive nonmetal but fluorine is more reactive
Fluorine is more reactive than chlorine. This is because fluorine has a higher electronegativity and a smaller atomic size, making it more eager to gain an electron and form bonds with other elements.