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Semelhante a Periodic Table.pptx
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Periodic Table.pptx
- 3. Groups Groups run vertically in the periodic table. They are numbered from 1 – 18. Elements in the same groups have the same number of electrons in the outer energy level. their chemical properties are same.
- 4. Group 1 : Alkali Metals Contains : Metals Valence Electrons : 01 Reactivity : Very Reactive Properties : Solids Soft Very reactive with water Shiny Low density
- 5. Group 2 : Alkaline-Earth Metals Contains : Metals Valence Electrons : 02 Reactivity : Very reactive but less reactive than alkali metals. Properties : Solids Silver colored More dense than alkali metals.
- 6. Group 3-12 : Transition Metals Contain : Metals Valence Electrons : 1 or 2 Reactivity : Less reactive than alkali and alkaline-earth metals. Properties : Higher density good conductors of heat and electricity.
- 7. Group 3-12 : Transition metals Below main table Contain : The Lanthanide and Actinide Series. These two rows are pulled out of sequence and placed below the main table to keep the table from being to wide. Lanthanides - 58 to 71. Actinides – 89 to 103.
- 8. Lanthanides : Rare Earth Element Lanthanides follow the transition metal 57 Lanthanum in period 6. Valance Electron : 3 Reactivity : Very reactive Properties : High luster but tarnish easily. High conductivity for electricity.
- 9. Actinides : Rare Earth Elements Actinides follow the transition metal 89 Actinium in period 7. Valance Electrons : 3 ( but up to 6 ) Reactivity : unstable Properties : All are radioactive mostly made in laboratories.
- 10. Metalloids These elements have characteristics of metals and non metals. Elements from groups 13-17 contain some metalloids. A zig-zag line that seperates metals from metalloids. Properties : They are ductile and malleable. They are solid that can be dull or shiny. They conduct heat and electricity better than non metals but not as well as metals.
- 11. Group 13 : Boron Group Group 13 : Boron group Contains : 1 metalloid and 4 metals. Valence Electrons : 3 Reactivity : Reactive Properties : solid at room temperature.
- 12. Group 14 : Carbon Group Contains : 1 non-metal,2 metalloids and 3 ,metals. Valence Electron : 4 Reactivity : Varies Properties : solid at room temperature.
- 13. Group 15 : Nitrogen Group Contains : 2 non-metals,2 metalloids, 1metal. Valence Electrons : 5 Reactivity : Varies Properties : All are solid at room temperature accept nitrogen.
- 14. Group 16 : Oxygen Group Contains : 3 non-metals, 1 metalloid, 2 metals. Valence Electron : 6 Reactivity : Reactive Properties : All are solid at room temperature accept oxygen .
- 15. Group 17 : Non-Metals Contains : Non-Metals Valence Electron : 7 Reactivity : very reactive Properties : Poor conductors React violently with alkali metals to form salt. Never found un combined in nature.
- 16. Group 18 : Noble Gases Contains : Non-metals Valence Electron : 8 (2 for he ) Reactivity : Unreactive Properties : colourless, odourless gases at room temp. Outermost energy level full. All found in atmosphere.
- 18. Electronic Configuration DIVYESH SONDARVA SEMESTER– 3 ROLL NO – 37
- 19. Atom The smallest component of an element having the chemical properties of element, consisting of a nucleus containing combinations of neutron and protons and electron. Electrons are bound to the nucleus by electrical attraction. Number of protons determines the identity of the element.
- 21. What is Orbital? An electron cloud having an energy state described by given values of the n, m, and m quantum numbers.
- 22. Orbitals in Sublevels Sublevel Orbitals electrons s 1 02 p 3 06 d 5 10 f 7 14 g 9 18
- 23. Electron Configuration The way electrons arranged around the nucleus. 1s1 row no shell no possibilities are 1-7 7 rows subshell possibilities are s, p, d, or f 4 subshells valence e- possibilities are: s: 1 or 2 p: 1-6 d: 1-10 f : 1-14 Total e- should equal Atomic
- 24. Three rules are used to build the electron configuration: Aufbau principle. Pauli Exclusion Principle. Hund’s Rule.
- 25. Aufbau Principle Electrons occupy orbitals of lower energy first.
- 26. Pauli Exclusion Principle An orbital can hold only two electrons and they must have opposite spin. Electron Spin Quantum Number (ms): +1/2, -1/2
- 27. Hund’s Rule In a set of orbitals, the electrons will fill the orbitals in a way that would give the maximum number of parallel spins (maximum number of unpaired electrons).
- 29. Orbital diagram for hydrogen Orbital Diagram for Hydrogen
- 30. Orbital diagram for helium Orbital Diagram for Helium
- 31. Orbital diagram for lithium Orbital Diagram for Lithium
- 32. Orbital diagram for beryllium Orbital Diagram for Beryllium
- 33. Orbital diagram for boron Orbital Diagram for Boron
- 34. Thank you