The reactivity series is a ranking of metals based on their reactivity with other substances, such as acids and water. It indicates how easily an ion can displace another ion in a reaction, with more reactive ions being able to displace less reactive ones. For example, in a displacement reaction, a more reactive metal ion can replace a less reactive metal ion from a compound. This series helps predict the outcomes of chemical reactions and the stability of compounds.
The larger the ionic radius, the more reactive the cation because the outermost electron is held more loosely and therefore more easily lost. In case of anions, the larger the ionic radius, the smaller the force of attraction between the nucleus and the coming -ve electron, so it becomes less reactive.
The reactivity series of metals is a table listing metals from the most reactive to the least reactive.
Carbon comes below aluminum and above zinc in the reactivity series: Potassium Sodium Lithium Calcium Magnesium Aluminium CARBON Zinc Iron Tin Lead Copper Silver Gold Platinum
Gold is native in the reactivity series, meaning it is found in its elemental form in nature without needing to be extracted from a compound.
Barium is a more reactive metal and is located near the bottom of the reactivity series. It will react vigorously with water to form barium hydroxide and hydrogen gas.
The larger the ionic radius, the more reactive the cation because the outermost electron is held more loosely and therefore more easily lost. In case of anions, the larger the ionic radius, the smaller the force of attraction between the nucleus and the coming -ve electron, so it becomes less reactive.
See what it will react with, eg. oxygen, hydrochloric acid, copper sulphate etc. When you have got this information you can then place it in between the two metals thats results are either sides of Zinc's. Hope this helped, ps this question is from a test. I hope your not cheating as this is wrong...
The reactivity series of metals is a table listing metals from the most reactive to the least reactive.
The reactivity series of metals is a list that ranks metals in order of their reactivity with other substances. Metals that are higher in the reactivity series are more likely to react with acids or other compounds compared to those lower in the series. This series helps predict how metals will behave in chemical reactions.
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Manganese lies between aluminium and zinc in the reactivity series, and forms a 2+ ion. Solutions of manganese (ll) salts are very pale pink (almost colourless) Reactivity sries in order from most reactive to least: Potassium Sodium Lithium Calcium Magnesium Aluminium Manganese Zinc Iron (Hydrogen) Copper
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Carbon comes below aluminum and above zinc in the reactivity series: Potassium Sodium Lithium Calcium Magnesium Aluminium CARBON Zinc Iron Tin Lead Copper Silver Gold Platinum
The reactivity series was conceptualized during the late 18th century by French chemist Antoine Lavoisier. He observed and categorized elements based on their ability to react with other substances, forming the basis for the reactivity series.
Gold is native in the reactivity series, meaning it is found in its elemental form in nature without needing to be extracted from a compound.
A reactivity series chart helps predict the outcome of single replacement reactions. The chart lists metals in order of their reactivity, showing which metals can replace others in a reaction based on their relative chemical reactivity.
The capacity of elements to displace hydrogen can be determined based on their position in the reactivity series. Elements higher in the reactivity series can displace hydrogen from compounds of elements lower in the series. For example, metals like magnesium and zinc can displace hydrogen from water because they are higher in the reactivity series.