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take a aqueous solution cupric salt like copper sulfate , add excess of ammonia to it , as the complex will be formed the color will be deep blue , now add chloroform to it as only ammonia will be soluble in it , ammonia will go in the chloroform layer , now separate the layers using a seperatory funnel and titrate both the layers by using a base and indicator , by taking the difference u will no the amount of copmplexed ammonia and can determine the formula of the copmlex , the answer will be near to 4 molecules of ammonia per ion of copper .
Copper ammine (not a misspelling) complexes are a very deep blue.
It forms a complex - Copper (tetraamine) sulfate which is a deep inky blue color
It stabilize the complex formed by the copper..
It turns into a blue solution of [Cu.6H2O]2+ complex (or hydrated) ions. The blue crystal form of copper sulfate consists of CuSO4.5H2O complex hydrate ion array, the white form is anhydrous CuSO4 (crystal form without H2O)
zinc + ethanol + water + chloroform + copper sulphate solution
zinc + ethanol + water + chloroform + copper sulphate solution
take a aqueous solution cupric salt like copper sulfate , add excess of ammonia to it , as the complex will be formed the color will be deep blue , now add chloroform to it as only ammonia will be soluble in it , ammonia will go in the chloroform layer , now separate the layers using a seperatory funnel and titrate both the layers by using a base and indicator , by taking the difference u will no the amount of copmplexed ammonia and can determine the formula of the copmlex , the answer will be near to 4 molecules of ammonia per ion of copper .
Complex IV
Copper ammine (not a misspelling) complexes are a very deep blue.
Yes
The copper ions will complex with the amide groups in the proteins to create a blue color that ... Realize that you have two sets of tubes, so you will be ...
It forms a complex - Copper (tetraamine) sulfate which is a deep inky blue color
we use alcohol in its preparation to decrease solubility of ammonia in water so that it will react with copper to form complex and decrease solubility of complex will crystallize it out.
It can form complex compounds of copper and oxygen, and release carbon dioxide gas (fizzing).
This formula is for the complex dichloridodiaqua copper(II).
Copper pans are the best pans, used by professional chefs. They conduct heat very evenly, and adds stability when beating egg whites.