Potassium chloride is soluble in water, so when you dissolve it, a colourless solution will be observed. I hope this helps!
first you take water in a beaker and put the mixture in it.you will see that ammonium chloride will dissolve in water because it is highly soluble in water and iodine is not so it won't dissolve. However, the solubility of elemental iodine in water can be increased by the addition of potassium iodide.you can then filter out the mixture so the iodine when you filter will stay on the filter paper. you have got your iodine separated.now for ammonium chloride, you can do evaporation or distillation. To get back water you can do distillation and get distilled water.
Sodium Chloride or (NaCl) is regular table salt. This is what we eat. Potassium Chloride HCL (Hydrochloride) is Potassium Salt with a Salt Base. Any time you see something labeled HCl it means it had a Hydrochloride base (Hydrogen + Chloride)
A hydroxide refers to the OH- polyatomic ion and is formed when an oxygen makes a covalent bond with one hydrogen (however you would not see such ions free in nature as they would more probably be in compounds). Potassium hydroxide (KOH) is formed when Potassium forms ionic bonds with OH- ions while Potassium Oxide (K2O) is formed when potassium forms ionic bonds with the Oxide (O2-) ions. Hydrochloric acid + Potassium Hydroxide ---> Potassium Chloride + Water i.e. HCl(aq) + KOH (aq) ----> KCl (aq) + H2O (l) This reaction is a neutralization reaction and occurs when an acid (HCl) reacts with a base (KOH).
A lila color, from potassium spectral lines.
When you add calcium chloride to potassium carbonate the products will be solid calcium carbonate and aqueous potassium chloride. The chemical equation for this reaction is CaCl2(aq) + K2CO3(aq) --> 2KCl(aq) + CaCO3(s). This type of reaction is called a double replacement/displacement reaction.
If potassium chloride is fully dissolved in pure water, the white crystals of KCl will disappear to yield a clear solution.
first you take water in a beaker and put the mixture in it.you will see that ammonium chloride will dissolve in water because it is highly soluble in water and iodine is not so it won't dissolve. However, the solubility of elemental iodine in water can be increased by the addition of potassium iodide.you can then filter out the mixture so the iodine when you filter will stay on the filter paper. you have got your iodine separated.now for ammonium chloride, you can do evaporation or distillation. To get back water you can do distillation and get distilled water.
It's NOT the metal as such but positive ion of the metal: Potassium, the K+ ion together with the negative chloride ion: Cl- they form the salt potassium chloride: KCl You see, it's always in the name of the salt
Sodium Chloride or (NaCl) is regular table salt. This is what we eat. Potassium Chloride HCL (Hydrochloride) is Potassium Salt with a Salt Base. Any time you see something labeled HCl it means it had a Hydrochloride base (Hydrogen + Chloride)
A hydroxide refers to the OH- polyatomic ion and is formed when an oxygen makes a covalent bond with one hydrogen (however you would not see such ions free in nature as they would more probably be in compounds). Potassium hydroxide (KOH) is formed when Potassium forms ionic bonds with OH- ions while Potassium Oxide (K2O) is formed when potassium forms ionic bonds with the Oxide (O2-) ions. Hydrochloric acid + Potassium Hydroxide ---> Potassium Chloride + Water i.e. HCl(aq) + KOH (aq) ----> KCl (aq) + H2O (l) This reaction is a neutralization reaction and occurs when an acid (HCl) reacts with a base (KOH).
Yes Pottasium is an Electrolyte, you see a electrolyte is a mineral that that disolves in water, and carries an electric current.In your body, potassium, sodium and chloride are the electrolyte minerals. Since the body is made mostly of water, these electrolytes can be found everywhere in your body.
A mixture of ammonium chloride and potassium chloride can be separated using the process of sublimation. You must also note that both these substances are sublimable. So, the question arises that how can these substances be separated using this technique? This technique is quite feasible in this case as the sublimable temperatures of ammonium and potassium chloride differ widely. Between the two, ammonium chloride (See the related link) has lower sublimable temperatures. Therefore, it sublimes first followed by potassium chloride.
A lila color, from potassium spectral lines.
Because the sodium chloride salt has equal amount of Na+ and Cl-. NaCl has the relation of 1:1. This is the reaction that happens when you dissolve NaCl in water: NaCl <---> Na+ + Cl- As you can see equal amount of positive and negative ions is formed.
The chloride anion is not observed in solution.
When you add calcium chloride to potassium carbonate the products will be solid calcium carbonate and aqueous potassium chloride. The chemical equation for this reaction is CaCl2(aq) + K2CO3(aq) --> 2KCl(aq) + CaCO3(s). This type of reaction is called a double replacement/displacement reaction.
Well since silica don't dissolve in water but 'sodium chloride' does (cuz it's salt)...so put them in the water,..then u'll see the preciptate,..remove he preciptate then u'll get the 'sodium choride' (wit water)..so now all you have to do is just to evaporise (or watever to remove the water witout NaCl)