in the Periodic Table s block element except be and mg are highly reactive element . the reactivity increase from top to bottom and the element of lithium famil is more reactive than the the the beryllium family. cs is more reactive in s block element . they are most powerful reducing agent /
Because they few valence valence shell electrons to give off.
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reactivity, the tendency of an element to react with another substance is know n as its reactivity. the more the capacity of an element to react with another substance the more will be its reactivity, the series of elements arranged in their decreasing reactivity is known as reactivity series.
Phosphorus. Due to its high reactivity, this element can't be found in its free state.
It has low to no reactivity because if it was reactive, then it would bond (react) with another element.
The halogen group, aka 7b or17.
ReactivityThe ease and speed with which an element combines with other elements and compounds is called the "reactivity" of the element.
There is no good correlation lies between the element reactivity and the atomic mass.
Reactivity is a term related to the aggressiveness (or not) of an element to combine with other elements. Oxygen, Chlorine, and Fluorine are among the most aggressive.
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No. In a displacement reaction, that is exactly what happens. If an element low down in the reactivity series is in a compound, and you add an element that is higher placed in the reactivity series. The more reactive element will displace the less reactive element in the compound.Example:Copper Sulphate - Copper is low in the reactivity series and is in a compoundSodium + Copper Sulphate - Sodium is higher in the reactivity series than copper, and is in it's pure elemental form.Copper + Sodium Sulphate - The Sodium that is higher in the reactivity series has switched places with the Copper, which is lower in the reactivity series.FULL EQUATION:Sodium + Copper Sulphate --> Copper + Sodium Sulphate
because the k is the reactivity of similar chemical
reactivity, the tendency of an element to react with another substance is know n as its reactivity. the more the capacity of an element to react with another substance the more will be its reactivity, the series of elements arranged in their decreasing reactivity is known as reactivity series.
An Element higher in the Reactivity Series will displace an Element lower in the Reactivity Series in a compound. Example. Potassium + Zinc Sulphate --> Potassium Sulphate + Zinc
Phosphorus. Due to its high reactivity, this element can't be found in its free state.
Chlorine is highly reactive.
fransium
Aluminium is an element, and because of its reactivity is never found as a native element.