Aula 4 Tabela Periódica e Distribuição Eletrônica 2pp

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Tabela Periódica e 
Distribuição Eletrônica
Profa.�Eliane�Sloboda Rigobello
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Tabela Periódica
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Tabela Periódica
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Tabela Periódica
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WXER FDWyGLFR REVHUYRX TXH R FRPSULPHQWR GH RQGD GRV UDLRV ; HPLWLGRV SRU FDGD
HOHPHQWR HVWDYDP UHODFLRQDGRV FRP R Q~PHUR DW{PLFR GR PHVPR�
‰ 'LVSRQGR RV HOHPHQWRV GD WDEHOD GH 0HQGHOHHY HP RUGHP FUHVFHQWH GH =� HUDP
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Tabela Periódica
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Tabela Periódica
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Quatro�novos�elementos
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*UXSR �� PHWDLV DOFDOLQRV �H[FHWR R KLGURJrQLR TXDQGR FRORFDGR
QHVWH JUXSR� � o nome vêm de álcali, que significa cinza de plantas,
onde podem ser encontrados, principalmente o sódio e o potássio.
*UXSR �� PHWDLV DOFDOLQRV WHUURVRV � nome dado devido a
semelhança apresentada com os alcalinos e por encontrarem-se na
terra.
*UXSR ��� FDOFRJrQHRV � a palavra vem do grego e significa
formadores de cobre.
*UXSR ��� KDORJrQHRV ± a palavra vem do grego e significa
formadores de sais.
*UXSR ��� JDVHV QREUHV RX LQHUWHV�
Tabela Periódica
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WHPSHUDWXUD DPELHQWH�
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‰ 7rP RV VXEQtYHLV s H p FRPSOHWDPHQWH SUHHQFKLGRV� HQHUJLDV GH
LRQL]DomR PXLWR HOHYDGDV VXJHULQGR XPD FRQILJXUDomR HOHWU{QLFD
PXLWR HVWiYHO H� SRUWDQWR� HP JHUDO QmR VmR UHDWLYRV�
‰ 6RPHQWH RV HOHPHQWRV [HQ{QLR �;H� H FULSW{QLR �.U� SRGHP IRUPDU
FRPSRVWRV FRP IO~RU SRU VHU R HOHPHQWR PDLV HOHWURQHJDWLYR
FDSD] GH UHWLUDU HOpWURQV GR ;H H .U �;H)�� ;H)�� ;H)� H .U)���
Gases Nobres
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EORFR�s
EORFR�d
EORFR�f
EORFR�p
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$FWLQtGHRV
4f
5f
EORFR�V
Tabela Periódica
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Classificação�em�relação�aos�
subníveis ocupados
Ǧ Elementos�representativos�:�subníveis s e�p
Ǧ Elementos�de�transição:�subnível d
Ǧ Elementos�de�transição�interna:�subnível f –
lantanídeos�e�os�actinídeos�
Tabela Periódica
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Tabela Periódica
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Exceções
Hélio: apresenta subnível s, mas é mostrado no bloco p devido
às propriedades de gás nobre, e por todos os elementos do
grupo 18 apresentarem a camada de valência completa.
Hidrogênio: tem um elétron s, então pertence ao grupo 1, mas
no entanto não apresenta propriedades de metais alcalinos e
nem dos demais elementos da tabela. Assim, em algumas
tabelas é representado à parte.
Tabela Periódica
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Tabela Periódica
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Tabela Periódica
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Configurações Eletrônicas
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GLVSRVWRV DR UHGRU GR Q~FOHR GH DFRUGR FRP R PRGHOR DW{PLFR DWXDO�
‰ (P XP iWRPR FDGD HOpWURQ p GHVFULWR SRU XP FRQMXQWR ~QLFR GH Q~PHURV
TXkQWLFRV �n, ll, ml , ms�
‰2V HOpWURQV VmR DGLFLRQDGRV DRV QtYHLV H VXEQtYHLV GH HQHUJLD GH IRUPD
TXH D HQHUJLD GR iWRPR VHMD D PDLV EDL[D SRVVtYHO� (P RXWUDV SDODYUDV RV
QtYHLV H VXEQtYHLV GH PDLV EDL[D HQHUJLD VmR SUHHQFKLGRV SULPHLUR FRP
HOpWURQV ± 35,1&Ë3,2 '( $8)%$8
5(*5$6�3$5$�35(',=(5�&21),*85$d®(6�(/(75Ð1,&$6
�� (OpWURQV�VmR�DWULEXtGRV�DRV�RUELWDLV�HP�RUGHP�FUHVFHQWH�GR�YDORU��n + l )
([HPSOR��VXEQtYHO��V���Q���l ������� ����VHUi�SUHHQFKLGR�FRP�HOpWURQV�DQWHV�GR��S���
�Q���l ������� ���
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([HPSOR��VXEQtYHO��S���Q���l ������� ����VHUi�SUHHQFKLGR�FRP�HOpWURQV�DQWHV�GR��V���
�Q���l ������� ���
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Configurações Eletrônicas
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SULQFtSLR�$8)%$8
Diagrama�de�Linus�Pauling
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Configurações Eletrônicas
6XEVWkQFLDV�
GLDPDJQpWLFDV� �
QmR�VmR�DWUDtGDV�
SRU�XP�LPm
35,1&Ë3,2�'(�(;&/86­2�'(�3$8/,��
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GRV�TXDWUR�Q~PHURV�TXkQWLFRV�(n,�ll,�ml,�ms���LVWR�p��QHQKXP�RUELWDO�SRGH�
FRQWHU�PDLV�GR�TXH�GRLV�HOpWURQV�H�TXDQGR�HVWHV�HVWLYHUHP�QR�PHVPR�
RUELWDO��VHXV�VSLQV�GHYHP�WHU�RULHQWDo}HV�RSRVWDV
RUELWDO�V
(OpWURQV�FRP�
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(OpWURQV�
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RUELWDLV�S
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Orbitais
degenerados
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HQHUJLD
6XEVWkQFLDV�
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VmR�DWUDtGDV�SRU�
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Configurações Eletrônicas
6XEQtYHO 1~PHUR�GH�RUELWDLV 1~PHUR�Pi[LPR�GH�HOpWURQV
s � �
p � �
d � ��
f � ��
&DPDGD 1tYHO��Q� 6XEQtYHO 3RSXODomR�GH�(OpWURQV GR�1tYHO�
��Q��
. � 1s2 ��� [����� ��
/ � 2s2 2p6 ����������������
0 � 3s2 3p6 3d10 ��������������������
1 � 4s2 4p6 4d10 4f14 ��������������������������
2 � 5s2 5p6 5d10 5f14 ��
3 � 6s2 6p6 6d10 ��
4 � 7s2 7p6 ��RX��
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Configurações Eletrônicas
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1RWDomR�GR�2UELWDO
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1RWDomR�GR�2UELWDO
1RWDomR�6LPSOLILFDGD
RX
Elétrons mais próximos 
ao núcleo são chamados 
de cerne e mais 
distantes de elétrons da 
camada de valência 
(maior n)
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FRQILJXUDomR�GH�JiV�
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Configurações Eletrônicas
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1RWDomR�6LPSOLILFDGD
1RWDomR�GR�2UELWDO
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Configurações Eletrônicas
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1RWDomR�6LPSOLILFDGD
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OS�SUBNÍVEIS
Sommerfield (1916)�percebeu�que�as�raias�obtidas�por�Bohr�eram�na�verdade�um�
conjunto�de�raias�mais�finas�e�supôs�então�que�os�níveis�de�energia�estariam�divididos�em�regiões�ainda�menores,�por�ele�denominadas�subníveis de�energia�(s,�p,�d,�f).
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Configurações Eletrônicas
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Configurações Eletrônicas
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Propriedades Periódicas
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Propriedades Periódicas
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atômico eleva-se do topo para a base da tabela periódica”
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