Red coloured bromine is formed. Bromides are displaced by chlorine.
Potassium reacts with Chlorine to create Pottassium Chloride or KCl
2KI+Br2 ---->2KBr +I2
2K+Cl2------->2KCl
Unbalanced: KBr + BaI2 --> KI + BaBr2Balanced: 2KBr + BaI2 --> 2KI + BaBr2
48.5
No - chlorine reacts to form chlorides - not bromides
Potassium reacts with Chlorine to create Pottassium Chloride or KCl
2KI+Br2 ---->2KBr +I2
2K+Cl2------->2KCl
Unbalanced: KBr + BaI2 --> KI + BaBr2Balanced: 2KBr + BaI2 --> 2KI + BaBr2
Yes, it is correct.
Sodium bromide reacts with chlorine to produce sodium chloride and bromine. 2NaBr + Cl2 --> 2NaCl + Br2. Bromine in color, though may appear yellowish in low concentrations.
48.5
Potassium reacts vigorously with water, as it is one of the most reactive alkali metals. When it does, it floats on top of the water, and burns a lilac flame. It also may explode. Fizzing and bubbling will also be seen as hydrogen gas is produced. The potassium reacts with the water to become a hydroxide (potassium hydroxide)
you have to write... 2KI + Cl2 = 2KCl + I2
2KI + Cl2 = 2KCl + I2
Oxygen is transferred from bromate ion(s) to the Chromium ion. Leaving hypobromous ion, and/ or bromide ion.