Very probable, after a violent reaction the hydroxide FrOH should be formed.
The chemical formula for francium mixed with water is Fr + H2O → FrOH + H2 (francium hydroxide and hydrogen gas are produced). Francium is a highly reactive alkali metal and would react violently with water to form francium hydroxide. However, francium is extremely rare and unstable, so this reaction has never been observed on a large scale.
Mungo beans absorb water and become softer.
As other alkali metals francium can react with water; but unfortunately we don't have francium for this experiment !
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.
It depends on what you mix, if you mixed, for example, lithium and water then the lithium would only fizz about a bit, but if you mixed francium with water then there would be a pretty big explosion ( I saw a less reactive metal blow a hole in a bath).
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.
When you mix water and pepper (paminta), the pepper will not dissolve in the water due to its hydrophobic nature. The pepper will float on the surface or sink to the bottom but won't mix with the water.
It is not possible.
Yes
Francium carbonate is expected to be soluble in water due to the reactivity of francium with water to form hydroxide ions. However, due to the extreme rarity and radioactivity of francium, its chemical properties are not well-studied.
In the nature francium exists only in infinitesimal amounts and because of this, it is considered generally an artificial element. Francium reacts with water.
Francium is an alkali metal, similar to caesium. Water (H2O) is a compound,not an element. Francium, although it is believed to have never been tested, is thought to have been the most reactive element with water. It is among the alkali metals in group 1 on the periodic table of elements.