you will get poisoned (that's what my science teacher told me)
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)
Since iron is a more active metal than copper, the iron would replace the copper in the copper sulfate, forming iron sulfate, and releasing elemental copper. The copper will not shape itself into a copper vessel, so eventually, the iron sulfate would leak out of the iron vessel, and eventually, if there is enough copper sulfate, the iron vessel will cease to exist.
If you needed to use powered copper 2 sulfate in an experiment and were only supplied with clumps of copper 2 sulfate which tool would you need to convert the copper sulfate to usable form?
there would be a single replacement reaction where the copper forms on the top of the zinc and the blue color of the copper sulfate would get lighter and eventually you would end up with zinc sulfate and copper
You would need a mortar and pestle to crush and grind the clumps of copper sulfate into a powdered form.
The potassium alum seed crystal will not induce the formation of copper sulfate crystals. Each substance forms its own distinct crystal structure, so the seed crystal must be made of the same substance as the solution for crystal growth to occur.
Anhydrous cupric sulfate would form hydrated copper(II) sulfate when water is added to it. This process is exothermic and the anhydrous crystals would dissolve as the water molecules bond with the copper sulfate molecules to form a hydrated crystal structure.
Calcium + Copper sulfate ----> Calcium sulfate + Copper It is a single displacement reactions. The products are Calcium Sulfate (white, insoluble) and fillings of copper(reddish-brown).
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)
Copper sulfate would crystalize as blue crystals, water would evaporate. To get the copper sulfate itself to evaporate you would need to heat it, melting the dry crystals then vaporizing them.
To convert inches to millimeters, you can multiply by 25.4. So, for a crystal of copper sulfate that is 0.250 inches long, the length in millimeters would be 6.35 mm (0.250 inches x 25.4 mm/inch = 6.35 mm).
Since iron is a more active metal than copper, the iron would replace the copper in the copper sulfate, forming iron sulfate, and releasing elemental copper. The copper will not shape itself into a copper vessel, so eventually, the iron sulfate would leak out of the iron vessel, and eventually, if there is enough copper sulfate, the iron vessel will cease to exist.
Copper sulfate is soluble in water and dissociated in ions (Cu2)+ and (SO4)2-.
If you needed to use powered copper 2 sulfate in an experiment and were only supplied with clumps of copper 2 sulfate which tool would you need to convert the copper sulfate to usable form?
there would be a single replacement reaction where the copper forms on the top of the zinc and the blue color of the copper sulfate would get lighter and eventually you would end up with zinc sulfate and copper
You would need a mortar and pestle to crush and grind the clumps of copper sulfate into a powdered form.
To prepare a saturated solution of copper sulfate at 20 degrees Celsius, you would need to dissolve approximately 203 grams of copper sulfate in 400 grams of water. This is based on the solubility of copper sulfate in water at that temperature.