In the group 2 elements, the reactivity of the metals increase as you move down the group. The order of reactivity in group 2 is barium, strontium, calcium, and magnesium.
iron, zinc, aluminium, magnesium, calcium, sodium, and potassium
Lithium and Iron Apex Finchy
Most things are more reactive than lead - it's the cheapest and most practical uncreative solid to produce. The only chemicals less reactive are hydrogen, silver, Mercury, gold and platinum. Tin is more reactive than lead.
Lithium, iron
In between these two, there are nickel, tin lead and hydrogen.They all are more reactive than copper but less reactive than iron.For your convenience, here is the reactive series of elements in order of decreasing reactivity:-Potassiumsodiumbariumcalciummagnesiumaluminiummanganesezincironnickeltinleadhydrogencoppermercurysilvergoldplatinum
Platinum is more electropositive than lead. The electronegativity of platinum is 1.72 and of lead is 1.854. Therefore this shows that lead is the more electronegative element.
Metals are more reactive elements.
No, the noble gasses are nonmetals that are less reactive than all other elements.
Yes
In between these two, there are nickel, tin lead and hydrogen.They all are more reactive than copper but less reactive than iron.For your convenience, here is the reactive series of elements in order of decreasing reactivity:-Potassiumsodiumbariumcalciummagnesiumaluminiummanganesezincironnickeltinleadhydrogencoppermercurysilvergoldplatinum
Platinum is more electropositive than lead. The electronegativity of platinum is 1.72 and of lead is 1.854. Therefore this shows that lead is the more electronegative element.
Metals are more reactive elements.
radium
No, the noble gasses are nonmetals that are less reactive than all other elements.
Yes
Group 1 elements are more reactive than that of group 2 elements.
(N)
Group 1 will be more reactive than group 13 elements
Group 1 will be more reactive than group 13 elements
more reactive, the elements of the first column increase in reactivity as you go down
Sulfur (S)