I'd predict that francium would combine less readily than cesium.
The Group 1 elements have a specific family name - alkali metals. All the alkali metals are silvery solids with low densities and low melting points. These elements increase in their reactivity, or tendency to combine with other substances, as you more from top to bottom on the periodic table.Alkali metals are found in many items. Lithium batteries are used in cameras. Sodium chloride is common table sat. Sodium and potassium, dietary requirements, are found in small quantities in potatoes and bananas.I'd predict that francium would combine less readily than cesium.______________Well, actually, Francium is a radioactive element, and it's a pretty unstable one at that; Alkali metals tend to explode somewhat when placed in water.Cesium then will explode in water, and Francium will, undoubtedly, undergo radioactive decay into Radium, and when that's placed into water...To answer the question :Francium will most definitely combine readily (if not violently) with water more than Cesium.
The single "most likely" element that would form an ionic compound with fluorine is cesium, or possibly francium if enough of it could be collected. This is because cesium, among stable elements, has the lowest electronegativity and fluorine has the highest electronegativity. However, any alkali or alkaline earth metal element in fact readily forms an ionic compound with fluorine, as do many other metals.
Francium would react with water by this equation: 2Fr + 2H2O -->2FrOH + H2 The products here are francium hydroxide and hydrogen gas. However, it would be impossible to gather enough francium to demonstrate this reaction.
Francium is a very rare metal that would oxidize very quickly. The word equation is francium + oxygen -> francium hydroxide + hydrogen gas.
Nothing would happen.
Probable francium would react more violent.
Supposing you mean cesium, I would say no. You see, when francium and water are mixed they react much more violently than cesium in water, causing a greater explosion. Therefore, cesium would combine more rapidly.
Very probable the reaction of francium should be more violent.
The Group 1 elements have a specific family name - alkali metals. All the alkali metals are silvery solids with low densities and low melting points. These elements increase in their reactivity, or tendency to combine with other substances, as you more from top to bottom on the periodic table.Alkali metals are found in many items. Lithium batteries are used in cameras. Sodium chloride is common table sat. Sodium and potassium, dietary requirements, are found in small quantities in potatoes and bananas.I'd predict that francium would combine less readily than cesium.______________Well, actually, Francium is a radioactive element, and it's a pretty unstable one at that; Alkali metals tend to explode somewhat when placed in water.Cesium then will explode in water, and Francium will, undoubtedly, undergo radioactive decay into Radium, and when that's placed into water...To answer the question :Francium will most definitely combine readily (if not violently) with water more than Cesium.
The 2nd most reactive is Cesium after Francium. If you disregard Francium because it is radioactive, then it would be Rubidium after Cesium.
Because the atom of francium is a whole row down from cesium. You see more YouTube videos of cesium in water because francium is highly radioactive, so it would be very hard to obtain a sample of francium to throw into water.
It is supposed that francium react with water more easy than any other element.
They all react, but Cesium would be the most reactive, since francium is radioactive we don't consider francium the most reactive.
Francium is most reactive - the Pauling electronegativity is calculated to be 0,7.
Francium and cesium, the two with the highest atomic numbers.
group 1 would be the Alkali Metals: Lithium, Sodium, Potassium, Rubidium, Cesium, and Francium
No, it is not. The most reactive element is would be francium. The most reactive element that can be gathered in any appreciable quantity is cesium.