"Carbon and hydrogen are often included in the reactivity series even though they are non-metals. Carbon is included because this helps to explain what happens in the extraction of iron in a blast furnace. Hydrogen is included because any metal below it will not react with dilute acids."http://www.frankswebspace.org.uk/ScienceAndMaths/chemistry/reactivitySeries.htm
Hydrogen is highly reactive because it has one electron in its outer shell, making it eager to form bonds with other atoms in order to achieve a stable arrangement. It readily reacts with elements like oxygen, forming water, and with metals to form hydrides.
Hydrogen can react with metals to form metal hydrides. This reaction can occur at high temperatures or under certain conditions, and it depends on the specific metal and its reactivity with hydrogen.
No element defies the laws of chemistry. All elements follow the fundamental principles of chemistry, such as the periodic table trends, reactivity, and bonding behavior.
Zinc can displace sodium in sodium hydroxide because zinc is higher in the reactivity series than sodium. The reactivity series is a list of metals arranged in order of their reactivity, and zinc is placed above sodium in this series. Therefore, zinc can displace sodium in a chemical reaction because it is more reactive.
"Carbon and hydrogen are often included in the reactivity series even though they are non-metals. Carbon is included because this helps to explain what happens in the extraction of iron in a blast furnace. Hydrogen is included because any metal below it will not react with dilute acids."http://www.frankswebspace.org.uk/ScienceAndMaths/chemistry/reactivitySeries.htm
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.
Between Lead and Copper
Becayse Iron (Fe) is higher than hydrogen (H) in the chemical reactivity series so it displaces it forming hydrogen gas and Iron sulphate. But Copper (Cu) is lower than hydrogen in the chemical reactivity series so it cannot dispalce hydrogen thus not liberating hydrogen gas
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.
No, as copper is below Hydrogen in the reactivity series
Its reactivity depends upon the conditions , in acids and alkalies it is highly reactive with pure water and air it is unreactive, although in reactivity series it higher than hydrogen.
Hydrogen is included in the activity series of metals because it exhibits both metal-like and non-metal-like properties. It can react with certain metals to form metal hydrides, while also being able to behave as a non-metal and participate in redox reactions. Including hydrogen in the activity series helps to provide a comprehensive understanding of its reactivity and its ability to displace other metals from their compounds.
Hydrogen may not be a metal, but it does share some properties with metals. It forms a positive cation, H+, and can displace some metals in displacement reactions. Basically, it is included in the reactivity series because it is able to displace some metals but not others.
Copper is less reactive than hydrogen, so it does not displace hydrogen from dilute acid violently. The reactivity series shows that copper is lower in the series than hydrogen, meaning it is less likely to displace hydrogen in a chemical reaction.
any metals below carbon in the reactivity series. :)
hydrogen + zinc sulphate = No Reaction. This is because hydrogen is lower than zinc in the reactivity series and thus cannot displace it