ELECTRONEGATIVITY,METALLIC CHARACTER

MELTING & BOILING POINT & DENSITY & METALLIC CHARACTER

MELTING POINT, ENTHALPY OF FUSION, METALLIC CHARACTER

METALLIC CHARACTER & BOILING POINT

METALLIC CHARACTER, MELTING POINT, MULTIPLE BONDING

Group 15|Electronic Configuration|Atomic And Ionic Radii|Ionisation Energy |Electronegativity|Metallic Character|Oxidation States |Quiz|Summary

Group 15|Electronic Configuration|Atomic And Ionic Radii|Ionisation Energy |Electronegativity|Metallic Character|Oxidation States |Quiz|Summary

Group 15|Electronic Configuration|Atomic And Ionic Radii|Ionisation Energy |Electronegativity|Metallic Character|Oxidation States |Quiz|Summary

Metallic Character The ability of an atom to donate electrons and form positive ion (cation) is known as electropositivity or metallic character. Down the group, metallic character increases due to increase in atomic size and across the period, from left to right electropositivity decreases due to decrease in atomic size. Non-Metallic Character The ability of an atom to accept electrons to form a negative ion (anion) is called non-metallic character or electronegativity. The elements having high electro-negativity have a higher tendency to gain electrons and form anion.Down the group, electronegativity decreases due to increase in atomic size and across the period, from left to right electronegativity increases due to decrease in atomic size Hydrogen is placed along with Alkali metals in the modern periodic table though it shows non-metallic character

Metallic Character The ability of an atom to donate electrons and form positive ion (cation) is known as electropositivity or metallic character. Down the group, metallic character increases due to increase in atomic size and across the period, from left to right electropositivity decreases due to decrease in atomic size. Non-Metallic Character The ability of an atom to accept electrons to form a negative ion (anion) is called non-metallic character or electronegativity. The elements having high electro-negativity have a higher tendency to gain electrons and form anion. Down the group, electronegativity decreases due to increase in atomic size and across the period, from left to right electronegativity increases due to decrease in atomic size Which of the following correctly represents the decreasing order of metallic character of Alkali metals plotted in the graph?

Metallic Character The ability of an atom to donate electrons and form positive ion (cation) is known as electropositivity or metallic character. Down the group, metallic character increases due to increase in atomic size and across the period, from left to right electropositivity decreases due to decrease in atomic size. Non-Metallic Character The ability of an atom to accept electrons to form a negative ion (anion) is called non-metallic character or electronegativity. The elements having high electro-negativity have a higher tendency to gain electrons and form anion. Down the group, electronegativity decreases due to increase in atomic size and across the period, from left to right electronegativity increases due to decrease in atomic size Which of the following has highest electronegativity?