"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
Carbon and hydrogen are not typically included in the reactivity series because they are not metals and do not undergo the same types of reactions as metals. Metals are listed in the reactivity series based on their tendency to lose electrons and form cations in chemical reactions. Carbon and hydrogen typically participate in covalent bonding rather than forming cations through electron transfer.
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 is included in the reactivity series because it can act as a reducing agent in chemical reactions, displacing certain metals from their compounds. It can react with metals to form metal hydrides and can also react with non-metals like oxygen to form water. These reactions demonstrate its ability to undergo redox reactions and its position in the reactivity series.
Carbon, hydrogen, and oxygen
Aluminium. This is because aluminum is "higher" than carbon in the reactivity series. You may wish to refer to the reactivity series if you need to compare the relative reactivities of other metals.
The elements in CH4 are carbon (C) and hydrogen (H). In one molecule of CH4, there is one carbon atom and four hydrogen atoms.
any metals below carbon in the reactivity series. :)
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.
Iron can be extracted from its ore by carbon through the process of smelting in a blast furnace. However, it cannot be extracted by hydrogen due to its lower reactivity compared to carbon.
Aluminum is placed above carbon in the reactivity series, meaning it is more reactive than carbon. It reacts with acids to release hydrogen gas and with metal oxides to produce metals. However, it is less reactive than metals like sodium and potassium.
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
potassium sodium lithium calcium magnesium aluminium (carbon) zinc iron (hydrogen) copper silver gold
Between Lead and Copper
Iron reacts with dilute sulfuric acid to give hydrogen gas because Fe is above hydrogen in the reactivity series, making Fe more reactive and able to displace hydrogen from sulfuric acid. Copper, on the other hand, is below hydrogen in the reactivity series and is not able to displace hydrogen from sulfuric acid, so it does not react with dilute H2SO4 to give 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.
Metals that are less reactive than carbon in the reactivity series, such as iron, lead, and copper, can be extracted from their oxides using carbon. The carbon reduces the metal oxide to the metal in a process known as reduction.