Radium (Ra) belongs to the alkaline earth metals family, located in Group 2 of the Periodic Table. Iodine (I) is part of the halogens, found in Group 17. Tin (Sn) is classified as a post-transition metal in Group 14, while cesium (Cs) is an alkali metal from Group 1. Each of these elements has distinct properties and reactivity based on their group classification.
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.
Combining sulfur and radium would likely result in the formation of radium sulfide. Radium sulfide is a radioactive compound that emits harmful radiation. Handling and storing this compound would require specialized precautions due to its radioactivity.
The solute would be iodine, and the solvent would be tincture
Radium hydroxide is a strong alkaline compound, so it would have a high pH value. However, the exact pH would depend on the concentration of the radium hydroxide solution.
The formula for cesium and iodine would be CsI.
Total mass is 63.80+63.25 cesium fraction is 63.80/127.05=.5022 iodine fraction is 63.25/127.05=.4978 compound total is 35.76*.5022=17.96g cesium 35.76*.4978=17.80g iodine
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 would most likely have the property of being highly reactive with water.
Cesium acetate would be mildly basic as the cesium ion is neutral while the acetate ion is a weak base.
Combining sulfur and radium would likely result in the formation of radium sulfide. Radium sulfide is a radioactive compound that emits harmful radiation. Handling and storing this compound would require specialized precautions due to its radioactivity.
The solute would be iodine, and the solvent would be tincture
Francium would combine with water more readily than cesium. Francium is the most reactive alkali metal due to its position in the periodic table, so it would react more violently with water compared to 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.
When cesium comes into contact with water, it reacts vigorously, releasing hydrogen gas and forming cesium hydroxide. The reaction is exothermic, producing a lot of heat and sometimes causing the cesium to ignite. Extreme caution is required when handling cesium due to its highly reactive nature.
Radium hydroxide is a strong alkaline compound, so it would have a high pH value. However, the exact pH would depend on the concentration of the radium hydroxide solution.