CsI.... it's not just a hit TV show, its an ionic compound as well.
Name: Cesium IodideEmpirical formula: CsIIonic Formula: CS1I1
CsCl like NaCl is a salt. The cesium has an ionic bond with the chloride.
It's CsI, because cesium has a +1 charge and iodine has a -1 charge
Formula: ICl3
Literally, the correct formula for potassium and iodine at standard temperature and pressure would be " K and I2". The formula for the compound formed between potassium and iodine, however, is KI.
The formula for cesium and iodine would be CsI.
Name: Cesium IodideEmpirical formula: CsIIonic Formula: CS1I1
Cesium is the element that is most likely to form an ionic compound with chlorine because it readily loses an electron to form Cs+ ions, which can then combine with Cl- ions to form CsCl, known as cesium chloride. Helium and iodine do not typically form ionic compounds with chlorine.
To find the amount of cesium in 35.76 g of the compound, you need to calculate the percentage of cesium in the compound. Total compound weight = 63.80 g (cesium) + 63.25 g (nonmetal) = 127.05 g Percentage of cesium = (63.80 g / 127.05 g) x 100% ≈ 50.27% Therefore, in 35.76 g of the compound, the amount of cesium would be 35.76 g x 0.5027 ≈ 18.00 g.
The chemical formula for the compound formed between iron(III) and iodine is FeI3 (iron(iii) iodide).
CsCl like NaCl is a salt. The cesium has an ionic bond with the chloride.
It's CsI, because cesium has a +1 charge and iodine has a -1 charge
Formula: ICl3
Literally, the correct formula for potassium and iodine at standard temperature and pressure would be " K and I2". The formula for the compound formed between potassium and iodine, however, is KI.
If
Iodine heptafluoride.
iron iodine