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- https://chem.libretexts.org/Courses/Modesto_Junior_College/Chemistry_142%3A_Pre-General_Chemistry_(Brzezinski)/CHEM_142%3A_Text_(Brzezinski)/04%3A_Atoms_and_Elements/4.06%3A_Periodic_Trends-_Atomic_Radius/4.6.02%3A_Metallic_and_Nonmetallic_CharacterBy following the trend summary in the figure below, you can see that the most reactive metals would reside in the lower left portion of the periodic table. In addition, the atomic radius increases goi...By following the trend summary in the figure below, you can see that the most reactive metals would reside in the lower left portion of the periodic table. In addition, the atomic radius increases going down a group, placing the outer electrons further away from the nucleus and making that electron less attracted by the nucleus.
- https://chem.libretexts.org/Courses/Modesto_Junior_College/Chemistry_143_-_Bunag/Chemistry_143_-_Introductory_Chemistry_(Bunag)/06%3A_The_Periodic_Table/6.17%3A_Metallic_and_Nonmetallic_CharacterBy following the trend summary in the figure below, you can see that the most reactive metals would reside in the lower left portion of the periodic table. In addition, the atomic radius increases goi...By following the trend summary in the figure below, you can see that the most reactive metals would reside in the lower left portion of the periodic table. In addition, the atomic radius increases going down a group, placing the outer electrons further away from the nucleus and making that electron less attracted by the nucleus.
- https://chem.libretexts.org/Courses/Modesto_Junior_College/Chemistry_143%3A_Introductory_College_Chemistry_(Brzezinski)/CHEM_143%3A_Text_(Brzezinski)/04%3A_Atoms_and_Elements/4.06%3A_Periodic_Trends-_Atomic_Radius/4.6.02%3A_Metallic_and_Nonmetallic_CharacterBy following the trend summary in the figure below, you can see that the most reactive metals would reside in the lower left portion of the periodic table. In addition, the atomic radius increases goi...By following the trend summary in the figure below, you can see that the most reactive metals would reside in the lower left portion of the periodic table. In addition, the atomic radius increases going down a group, placing the outer electrons further away from the nucleus and making that electron less attracted by the nucleus.
- https://chem.libretexts.org/Courses/Modesto_Junior_College/Chemistry_142%3A_Pre-General_Chemistry_(Maki)/01%3A_Text_(Maki)/1.04%3A_Atoms_and_Elements/1.4.06%3A_Periodic_Trends-_Atomic_Radius/1.4.6.02%3A_Metallic_and_Nonmetallic_CharacterBy following the trend summary in the figure below, you can see that the most reactive metals would reside in the lower left portion of the periodic table. In addition, the atomic radius increases goi...By following the trend summary in the figure below, you can see that the most reactive metals would reside in the lower left portion of the periodic table. In addition, the atomic radius increases going down a group, placing the outer electrons further away from the nucleus and making that electron less attracted by the nucleus.
- https://chem.libretexts.org/Courses/Fullerton_College/Beginning_Chemistry_(Chan)/04%3A_Electronic_Structure/4.19%3A_Periodic_Trends_-_Metallic_and_Nonmetallic_CharacterBy following the trend summary in the figure below, you can see that the most reactive metals would reside in the lower left portion of the periodic table. In addition, the atomic radius increases goi...By following the trend summary in the figure below, you can see that the most reactive metals would reside in the lower left portion of the periodic table. In addition, the atomic radius increases going down a group, placing the outer electrons further away from the nucleus and making that electron less attracted by the nucleus.
