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Copper hydroxide is classified as a slightly soluble. Exactly how much will dissolve depends on the pH of the water, and other factors such as the carbonate concentration. Even with these taken into account, for pH around 7, and typical water hardness, the amount of copper hydroxide that will dissolve should be 10 mg or less per liter of water.
100 g of anhydrous copper sulfate (CuSO4) contain 39,81 g copper.
Radium sulfate (formula RaSO4) will dissolve at 0.00021 g/100g of water. To determine this: Get the solubility product constant Ksp of the values. This will indicate how much solid gets dissolve in the solution. Also consider the effect on solubility (for example, common ions).
At STP, there will be no reaction. Gold is much less active than copper so there will be negligible gold sulfate formed by substitution. Gold is the lowest metal in the electrochemical series, so it will not react chemically with salts of any other metal.
Not much. The Copper (II) sulfate will just dissolve in the water (at about 316g/L of water). Copper (II) sulfate is pretty friendly around water and not all that dangerous. It's used commercially.
The copper sulfate is ionic because it dissolves much more easily in water and other substances than the iodine does, which means it is an ion.
HOW LARGE IS THE CONCRETE POND?
no
Well the formula is CuSO4
The solubility of CuCl2 in water is 75,7 g/100 mL at 25 0C.
Copper hydroxide is classified as a slightly soluble. Exactly how much will dissolve depends on the pH of the water, and other factors such as the carbonate concentration. Even with these taken into account, for pH around 7, and typical water hardness, the amount of copper hydroxide that will dissolve should be 10 mg or less per liter of water.
100 g of anhydrous copper sulfate (CuSO4) contain 39,81 g copper.
Radium sulfate (formula RaSO4) will dissolve at 0.00021 g/100g of water. To determine this: Get the solubility product constant Ksp of the values. This will indicate how much solid gets dissolve in the solution. Also consider the effect on solubility (for example, common ions).
Copper(II) sulfate contain 398,1339 g copper in 1 kg CuSO4.
A copper sulphate solution can have different concentrations depending on how much copper sulphate crystals have been added into the water. A typical 1 molar solution of copper sulphate would need 250g of CuSO4, mixed with 700ml of H2O, with 10ml of H2SO4 added with another 290ml of water.
Very hard to separate completely but you could mix the mixture with water the BaCl2 would dissolve in water while the CaSO4 wouldn't (much) Then filter off the remaining solid. The BaCl2 would be in solution and the water could be evaporated off. 99% of the CaSO4 would be separated out since BaCl2 is 100X more soluble.