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Cesium bicarbonate would be CsHCO3
Cesium acetate would be mildly basic as the cesium ion is neutral while the acetate ion is a weak base.
1. It is impossible technically for radium to disappear totally. 2. Also it is not so important to have today radium.
The solute would be iodine, and the solvent would be tincture
This compound was not obtained and studied; the chemical formula will be RaS (radium sulphide).
The formula for cesium and iodine would be CsI.
Caesium (Cs), since has the lowest electronegativity
Cesium bicarbonate would be CsHCO3
Phosphorus, iron, and iodine all have at least one isotope that is stable, and any of these would do for the longest half life. In fact, the radioactive isotopes of phosphorus are all synthetic, so radioactive phosphorus is not found in nature.
Cesium acetate would be mildly basic as the cesium ion is neutral while the acetate ion is a weak base.
1. It is impossible technically for radium to disappear totally. 2. Also it is not so important to have today radium.
The solute would be iodine, and the solvent would be tincture
I'd predict that francium would combine less readily than cesium.
It may be possible to bombard Radium 15 with protons, creating Radium 16. Radium 16 has a fast decay rate. This would release large amounts of energy.
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.
This compound was not obtained and studied; the chemical formula will be RaS (radium sulphide).
The solute would be iodine, and the solvent would be tincture