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By knowing the reactivity series of elements, we can tell which elements will displace each other. So to extract a metal from an ore, you need to use an element higher up in the reactivity series, so that the metal will be replaced by the other element, and you are left with a more pure form of the metal.
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.
This depends on the chemical reactivity of the metal (position on the reativity series).
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
Metals placed high in the reactivity series will reduce the oxides of those lower in the series.
Lithium
Metals higher up the reactivity series (more reactive) will react more readily with oxygen to form the respective metal oxide
The activity (or reactivity) series determines whether or not a metal will replace another one in a replacement reaction.See the Related Questions to the left for more information about the activity series.
any metal's that below Copper in the reactivity series.
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.
The concept of a metal reactivity series was not invented by a single individual. It is a scientific idea that has been developed over time through the work of many scientists, researchers, and chemists who have studied the reactivity of metals.
By knowing the reactivity series of elements, we can tell which elements will displace each other. So to extract a metal from an ore, you need to use an element higher up in the reactivity series, so that the metal will be replaced by the other element, and you are left with a more pure form of the metal.
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.
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.
The rate of corrosion is directly linked to a metal's reactivity. The higher the metal in the series, the more reactive, also more susceptible to corrosion with oxygen and water. aluminum is not easy to corrode. Aluminum quickly reacts with oxygen in the air, and the oxide layer that forms protects the metal underneath from any further reaction.
The role of RSC, or the Reactivity Series Chart, is to show the relative reactivity of metals. It helps predict whether a metal will displace another metal from its compound based on their positions in the reactivity series. RSC is a useful tool in understanding redox reactions and the behavior of metals in chemical reactions.
This depends on the chemical reactivity of the metal (position on the reativity series).