Oh, honey, let me break it down for you. Copper and hydrochloric acid have a little love-hate relationship - they react together, but not in the way you want for making hydrogen. The copper would just get cozy with the acid and form copper chloride instead of giving you that sweet hydrogen gas. So, if you're looking to get your hands on some hydrogen, you better find a more compatible partner for your copper.
Copper does not react with hydrochloric acid because it is not reactive enough to displace hydrogen from the acid. Copper is below hydrogen in the reactivity series, so it cannot displace hydrogen ions to form copper chloride and hydrogen gas.
No, copper cannot replace hydrogen in hydrochloric acid (HCl) under normal conditions. This is because copper is a less reactive metal than hydrogen, as determined by its position in the reactivity series of metals. Only metals that are more reactive than hydrogen can displace it from acids, such as zinc, magnesium, or iron. Copper, being less reactive, does not react with HCl to release hydrogen gas.
Copper reacts steadily with dilute hydrochloric acid to form copper chloride and hydrogen gas. The reaction is not as vigorous as with more reactive metals like magnesium or zinc.
In general, copper will not displace hydrogen from water or from acids, but in the case of hot, concentration H2SO4 a reaction will occur with copper. Why? Because hot, concentrated H2SO4 will act as an oxidizing agent to oxidize the copper to copper cation. HCl cannot do this.
Copper Chloride (CuCl2) would have to react with another compound in order for it to produce hydrogen.Added:Cu2+ will never produce hydrogen because it can not REDUCE at all, only oxidize another substance.To 'make' hydrogen it is necessary to extract electrons from a reductant (= electron donor). Copper metal (Cu) would be able to do to H+ ions (from strong acids).
yes it does.
Copper does not react with hydrochloric acid because it is not reactive enough to displace hydrogen from the acid. Copper is below hydrogen in the reactivity series, so it cannot displace hydrogen ions to form copper chloride and hydrogen gas.
Because burning (combustion) is an oxidation reaction and hydrogen is not implied.
No, copper cannot replace hydrogen in hydrochloric acid (HCl) under normal conditions. This is because copper is a less reactive metal than hydrogen, as determined by its position in the reactivity series of metals. Only metals that are more reactive than hydrogen can displace it from acids, such as zinc, magnesium, or iron. Copper, being less reactive, does not react with HCl to release hydrogen gas.
Copper reacts steadily with dilute hydrochloric acid to form copper chloride and hydrogen gas. The reaction is not as vigorous as with more reactive metals like magnesium or zinc.
In general, copper will not displace hydrogen from water or from acids, but in the case of hot, concentration H2SO4 a reaction will occur with copper. Why? Because hot, concentrated H2SO4 will act as an oxidizing agent to oxidize the copper to copper cation. HCl cannot do this.
Copper Chloride (CuCl2) would have to react with another compound in order for it to produce hydrogen.Added:Cu2+ will never produce hydrogen because it can not REDUCE at all, only oxidize another substance.To 'make' hydrogen it is necessary to extract electrons from a reductant (= electron donor). Copper metal (Cu) would be able to do to H+ ions (from strong acids).
Mixing copper with hydrochloric acid would produce copper chloride and hydrogen gas. This reaction would dissolve the copper, forming a blue-green solution of copper chloride. The release of hydrogen gas could be observed as bubbles.
Hydrochloric acid reacts with copper carbonate to produce copper chloride, carbon dioxide, and water. This reaction is a double displacement reaction where the hydrogen in the acid displaces the copper in the carbonate compound.
No. Copper oxide is just copper and oxygen. It is generally green in color and is often seen as weathering or corrosion on copper. Hydrogen is an element and is not part of copper oxide.
Copper is an inert metal and below hydrogen in electro chemical series therefore can not displaced hydrogen from acids so copper can not be converted directly to salts by reacting with acids, however concentrated sulphuric acid reacts with copper on heating in presence of atmospheric oxygen forming the copper sulphate, chlorides and other salts are prepared from its sulphate salt.
No. hydrogen will eliminate only copper, or gold in the oxidized state, and when dissolved. On 2nd thought, yes. Bring copper and gold into the oxidized, dissolved states, using aquq regia, a solution of 3 parts HCl with 1 part HNO3. Replace spare HNO3 with HCl, using 3 circles of HCl addition and vaporizing. Bubbling hydrogen at this point will free gold and leave copper dissolved