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When the two Fehling Solutions A and B are mixed, a deep blue solution containing a complex cupric ion is formed. On interaction with reducing compounds such as aldehydes or sugars, the copper is reduced to the univalent stage, and a red, yellow, or yellowish green precipitate is formed.
When Fehling A & B are mixed in equal quantities... Fehlings Reagent is formed which is DEEP BLUE in colour Hope that answers your question! :)
if a solution mixed any other soluion
If the solid is soluble (can dissolve) then it will dissolve in the liquid and give you a solution.
Yes, salt mixed in water is a solution. Specifically a homogeneous solution.
When the two Fehling Solutions A and B are mixed, a deep blue solution containing a complex cupric ion is formed. On interaction with reducing compounds such as aldehydes or sugars, the copper is reduced to the univalent stage, and a red, yellow, or yellowish green precipitate is formed.
orange
The sucrose does not react with Fehling's reagent. Sucrose is a disaccharide of glucose and fructose. Most disaccharides are reducing sugars, sucrose is a notable exception, for it is a non-reducing sugar. The anomeric carbon of glucose is involved in the glucose- fructose bond and hence is not free to form the aldehyde in solution.
because it contains glucose
If the solution is not a buffer, the HCl will react with the solution to form a product.
No reaction occurs
MgCl2 + Na2CO3 = 2NaCl + MgCO3
Macaroni
It is left as a low hazard
When Fehling A & B are mixed in equal quantities... Fehlings Reagent is formed which is DEEP BLUE in colour Hope that answers your question! :)
A water solution of iron sulfate is obtained.
There is no "mineral" mixed with glucose to make proteins.