it will form a yellow precipitate
white :] To be sure, search this on Wikipedia, and look to the right at appearance.
They are not soluble, therefore they do not precipitate or form a color....a.k.a....no reaction...
the chemical reaction between silver nitrate and potassium chromate in generally used in a titration to look for chloride ions , and is a two step reaction: i will give you the ionic equations, which is pretty much all you need Ag+(aq) + Cl-(s) --> AgCl(s) this part of the equation caused the solution to go cloudy. when all the chloride ions are used up then the silver reacts with the chromate ions to produce the red colour you see when the end point of the precipitation is reached: 2Ag+(aq) + CrO4 2-(aq) --> Ag2 CrO4(s) which produces the red colour the amount of silver nitrate relates directly to the chloride ion concentration as it is a 1:1 ration reaction. i hope this answers your question =)
Silver chloride precipitate is white in color.
The color of aqueous iron(II) sulfate is typically pale green. When potassium iodide is added, it reacts with iron(II) ions to form a dark brown precipitate of iron(II) iodide.
Yes it is a precipitate, generally yellow in colour
Magnesium carbonate precipitate is white in color.
metalicc or grey
white :] To be sure, search this on Wikipedia, and look to the right at appearance.
They are not soluble, therefore they do not precipitate or form a color....a.k.a....no reaction...
Due to the potassium ion in potassium nitrate, any firework composition made with potassium nitrate would sport a purple/violet color, unless a strong colorant compound like strontium chloride is added to the composition.
You can distinguish between Cl and I by using chemical tests, such as the silver nitrate test. Chlorine (Cl) forms a white precipitate with silver nitrate, while iodine (I) forms a yellow precipitate. Additionally, you can use other methods such as spectroscopy or flame tests to identify the elements.
2HNO3+2Ag=2AgNO3+h2 the pecipitate AgNO3 is white in colour like yoghurt or curd
Potassium nitrate is a source of nitrogen and potassium, essential nutrients for plant growth. When applied to roses, potassium nitrate can promote vigorous growth, strong stems, and healthy foliage. It can also help improve the overall health and resilience of roses, making them more resistant to diseases and environmental stress.
The colors come from metals the react with heat. here is a table of the what metals give out what colors. ColorMetalExample compoundsRedStrontium (intense red) Lithium (medium red)SrCO3 (strontium carbonate) Li2CO3 (lithium carbonate) LiCl (lithium chloride)OrangeCalciumCaCl2 (calcium chloride)YellowSodiumNaNO3 (sodium nitrate)GreenBariumBaCl2 (barium chloride)BlueCopper halidesCuCl2 (copper chloride), at low temperatureIndigoCesiumCsNO3 (cesium nitrate)VioletPotassium Rubidium (violet-red)KNO3 (potassium nitrate) RbNO3 (rubidium nitrate)GoldCharcoal, iron, or lampblackWhiteTitanium, aluminium, beryllium, or magnesium powders
This compound is potassium chloride.
The hydrogen carbonate solution would turn cloudy white due to the formation of calcium carbonate precipitate as a result of the reaction between hydrogen carbonate and calcium ions in the snails' shells.