magic and stuff
Copper (Cu), silver (Ag), gold (Au) ....Osmium (Os) is also found in nature as an uncombined element sometimes. Rhodium (Rh) can occur as a rare deposit in uncombined form, for example in Montana, USA.Platinum (Pt) nuggets also occur naturally in the uncombined state.Tellurium (Te) is sometimes found in its native (elemental) form.Chromium (Cr), lead (Pb) and mercury (Hg) have also been found in uncombined form, but this is extremely rare. For more information see Related links below this box.
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.
Iron is more reactive than copper, so the copper precipitates out of the solution by sticking to the iron. For example, if you have a test tube with a solution of copper (II) sulfate and put an iron nail into it, the iron will react with the solution to form iron (II) sulfate and the copper will come out of the solution and stick to the iron.
Copper
The pink precipitate is finely divided copper, reduced to its metallic form by displacement from copper sulfate by iron, which is higher in the electromotive series than copper. Iron sulfate remains in solution.
Copper (Cu), silver (Ag), gold (Au) ....Osmium (Os) is also found in nature as an uncombined element sometimes. Rhodium (Rh) can occur as a rare deposit in uncombined form, for example in Montana, USA.Platinum (Pt) nuggets also occur naturally in the uncombined state.Tellurium (Te) is sometimes found in its native (elemental) form.Chromium (Cr), lead (Pb) and mercury (Hg) have also been found in uncombined form, but this is extremely rare. For more information see Related links below this box.
Copper is less reactive than iron, therefore iron will exist as an aqueous ion and copper will be an elemental metal. See the "reactivity series for metals."
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.
Iron , Aluminium and Copper Can Be Found , Also Gold Can Be Found Uncombined in the Earths Crust .
Iron is more reactive than copper, so the copper precipitates out of the solution by sticking to the iron. For example, if you have a test tube with a solution of copper (II) sulfate and put an iron nail into it, the iron will react with the solution to form iron (II) sulfate and the copper will come out of the solution and stick to the iron.
Yes, solid copper will form because iron will replace the copper, and because iron is higher on the metal activity series than copper.
It is an electrochemical reaction. Iron is more reactive than copper, meaning it is more easily loses electrons to form a compound. So the copper essentially "steals" electrons from the iron. Forming copper metal and iron sulfate.
Yes, atoms of copper and iron can generally form stable bonds with transition elements. Copper and iron are both transition elements themselves and can form stable bonds with other transition elements. The stability of the bonds will depend on factors such as the electronegativity and bonding properties of the specific elements involved.
Copper
The pink precipitate is finely divided copper, reduced to its metallic form by displacement from copper sulfate by iron, which is higher in the electromotive series than copper. Iron sulfate remains in solution.
They do not alloy. Copper and tin form bronze, but do not alloy with steel or iron.
Gold, silver, iron ore, tin, copper, and petroleum are a few