No. A metal will replace any less active metal.
it displaces the less reative metal and replaces it.
Copper (Cu) is more active than nickel (Ni) and less active than zinc (Zn).
You can predict if a metal will replace another in a compound based on the reactivity series of metals. A more reactive metal will displace a less reactive metal from its compound. The position of the metals in the reactivity series will determine whether a displacement reaction will occur.
When a more reactive metal displaces a less reactive metal in a solution what is the reaction calledRead more: When_a_more_reactive_metal_displaces_a_less_reactive_metal_in_a_solution_what_is_the_reaction_called
they form a salt
it displaces the less reative metal and replaces it.
Copper (Cu) is more active than nickel (Ni) and less active than zinc (Zn).
Ag does not replace Zn in a ZnSO4 solution because Ag is lower in the reactivity series compared to Zn. In a single replacement reaction, a more reactive metal will replace a less reactive metal in a compound. Since Ag is less reactive than Zn, it cannot displace Zn in the solution.
It is unlikely that tin would replace sodium in a reaction as sodium is a more reactive metal than tin. In a typical single displacement reaction, a more reactive metal will replace a less reactive metal in a compound. Therefore, sodium is more likely to replace tin in a reaction rather than the other way around.
I've never heard that exact phrase used, but I'm guessing you're talking about a sacrificial anode. This is a piece of more active metal that's electrically connected to a piece of metal you want to protect; the sacrificial anode corrodes instead of the less active metal.
An element must have similar chemical properties and valency as the element it is replacing in order to replace it in a compound. This ensures that the chemical reaction remains balanced and the new compound formed is stable.
It depends on how active you are and how old you are. Daily recommendation is 2000 but you need less if you are less active and more if you are more active.
You can predict if a metal will replace another in a compound based on the reactivity series of metals. A more reactive metal will displace a less reactive metal from its compound. The position of the metals in the reactivity series will determine whether a displacement reaction will occur.
When a more reactive metal displaces a less reactive metal in a solution what is the reaction calledRead more: When_a_more_reactive_metal_displaces_a_less_reactive_metal_in_a_solution_what_is_the_reaction_called
they form a salt
Six to eight servings... The more active you are, the more you'll need; the less active you are, the less you'll need.
Noble metals are less reactive and are positioned higher in the electrochemical series, while active metals are more reactive and are positioned lower. The position in the electrochemical series reflects the tendency of the metal to lose electrons and undergo oxidation reactions. Noble metals have a lower tendency to oxidize, while active metals have a higher tendency to undergo oxidation reactions.