Periodic Trends of the Elements

36
Copyright Sautter 2003

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Shows the trends in atomic size, ion size, electronegativity, ionization energy, electron affinity and metal vs. non metal properties. **More good stuff available at: www.wsautter.com and http://www.youtube.com/results?search_query=wnsautter&aq=f

Transcript of Periodic Trends of the Elements

Page 1: Periodic Trends of the Elements

Copyright Sautter 2003

Page 2: Periodic Trends of the Elements

The next slide is a quick promo for my books after which the presentation will begin

Thanks for your patience!Walt S.

[email protected] stuff at: www.wsautter.com

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Page 3: Periodic Trends of the Elements

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Page 4: Periodic Trends of the Elements

PERIODIC TRENDS OF THE ELEMENTS

• CHEMICAL PROPERTIES• PHYSICAL PROPERTIES• ATOMIC RADII• IONIC RADII• IONIZATION ENERGY• ELECTRON AFFINITY• ELECTRONEGATIVITY• METALLIC & NONMETALLIC CHARACTER

PERIODIC

TABLE ?

I INVENTED IT !

MENDELEYEV

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DEFINITIONS OF PERIODIC PROPERTIES

• CHEMICAL PROPERTIES REFERS TO THE TENDENCY OF ATOMS TO COMBINE WITH OTHER ELEMENTS AND/ OR MOLECULES TO FORM COMPOUNDS.

• PHYSICAL PROPERTIES REFERS TO CHARACTERISTICS SUCH AS DENSITY, PHYSICAL STATE (SOLID, LIQUID OR GAS), ELECTRICAL AND THERMAL CONDUCTIVITY, MALLEABILITY (CAN BE HAMMERED INTO SHAPE), DUCTILITY (CAN BE STRETCHED), COLOR, LUSTER (SHININESS), BRITTLENESS, ETC.

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DEFINITIONS OF PERIODIC PROPERTIES (CONT’D)

• ATOMIC RADII IS MEASURED AS ONE HALF OF THE DISTANCE BETWEEN THE NUCLEI OF TWO ADJACENT SIMILAR ATOMS (IT MEASURES ATOMIC SIZE)

• IONIC RADII IS MEASURED AS ONE HALF OF THE DISTANCE BETWEEN THE NUCLEI OF TWO ADJACENT SIMILAR IONS (IT MEASURES ION SIZE)

• IONIZATION ENERGY MEASURES THE ENERGY NEEDED TO REMOVE AN ELECTRON FROM A FREE ATOM IN THE GAS STATE (IT MEASURES HOW TIGHTLY ELECTRONS ARE BOUND TO AN ATOM)

• ELECTRON AFFINITY MEASURES THE ENERGY RELEASED WHEN AN ELECTRON IS ADDED TO A FREE ATOM IN THE GAS STATE ( IT MEASURES HOW WELL ATOMS ATTRACT ELECTRONS)

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DEFINITIONS OF PERIODIC PROPERTIES (CONT’D)

• ELECTRONEGATIVITY MEASURES THE ELECTRON ATTRACTING ABILITY OF AN ATOM WHEN IT IS BONDED TO ANOTHER ATOM

• METALLIC CHARACTER MEASURES THE TENDENCY OF AN ELEMENT TO ACT AS A METAL IN THINGS SUCH AS CONDUCTIVITY, TENDENCY TO LOSE ELECTRONS, SHININESS, MAEBILITY AND DUCTILITY

• NONMETALLIC CHARACTER MEASURES THE TENDENCY OF AN ELEMENT TO ACT AS A NONMETAL IN THINGS SUCH NONCONDUCTIVITY, TENDENCY TO GAIN ELECTRONS, LOW LUSTER AND BRITTLENESS.

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GENERAL ORGANIZATION OF THE PERIODIC TABLE

• COLUMNS (FAMILIES) CONTAIN ELEMENTS WITH SIMILAR VALENCE ELECTRON CONFIGURATIONS (ns1, ns2, ns2

np3, ETC.) AND SIMILAR CHEMICAL PROPERTIES

• ROWS (PERIODS) CONTAIN ELEMENTS WITH VALENCE ELECTRONS AT THE SAME ENERGY LEVEL (n=1, n=2, n=3, ETC.)

• BLOCKS OF ELEMENTS CONTAIN ATOMS WITH THE SAME VALENCE ELECTRON ORBITAL TYPE (s, p, d OR f)

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sBLOCK d BLOCK p BLOCK

INERTGAS

f BLOCK

metals non metals

METALLOIDS

Orbital Blocks on the Periodic Table

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COMMON CHEMICAL FAMILES & THEIR PROPERTIES

COLUMN I (ALKALI METALS) Li, Na, K, Rb, Cs AND Fr• FORM +1 CATIONS• ARE HIGHLY METALLIC• REACTION READILY AND RAPIDLY WITH WATER TO FORM

HYDROXIDES AND HYDROGEN GAS• REACT WITH THE HALOGENS (COLUMN VII) TO FORM SALTS WITH

FORMULA TYPE MX (FOR EXAMPLE NaCl OR KBr)

• VALENCE ELECTRONS ARE ns1

• COLUMN II (ALKALINE EARTH METALS) Be, Mg, Ca, Ba, Sr AND Ra• FORM +2 CATIONS• ARE HIGHLY METALLIC• REACTION READILY AND RAPIDLY WITH WATER TO FORM

HYDROXIDES AND HYDROGEN GAS • REACT WITH THE HALOGENS TO FORM SALTS WITH FORMULA

TYPE MX2 (FOR EXAMPLE MgBr2 OR BaCl2)

• VALENCE ELECTRONS ARE ns2

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COMMON CHEMICAL FAMILES & THEIR PROPERTIES (CONT’D)

• COLUMN VII (COLUMN 17 ON SOME PERIODIC TABLES) HALOGENS F2,Cl2, Br2, I2 AND At2

• ALL ARE DIATOMIC ELEMENTS (OCCUR AS A

MOLECULE CONSISTING OF TWO ATOMS• ARE HIGHLY NONMETALLIC• REACT READY AND RAPIDLY WITH METALS TO

FORM SALTS• OCCUR IN ALL THREE PHASES AT ROOM

TEMPERATURE F2 AND Cl2 ARE GASES, Br2 IS A LIQUID AND I2 IS A SOLID

• VALENCE ELECTRONS ARE ns2 np5

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COMMON CHEMICAL FAMILES & THEIR PROPERTIES (CONT’D)

• COLUMN VIII (COLUMN 18 ON SOME PERIODIC TABLES) INERT GASES, ALSO CALLED NOBLE GASES OR RARE GASES

• ALL ARE UNREACTIVE UNDER ORDINARY CONDITIONS

• ALL HAVE COMPLETED OUTER ENERGY LEVELS

• ALL ARE GASES AT ROOM TEMPERATURE AND PRESSURE

• THEIR ELECTRON CONFIGURATIONS ( ns2 np6 ) SET THE STANDARD FOR CHEMICAL STABILITY WHICH MOST OTHER ELEMENTS ATTEMPT TO ACHIEVE THROUGH CHEMICAL REACTION.

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C CO OL L

M MU UN N

I II

TransitionalMetals

C O L

M U N

V I I

INERT

GAS ES

LANTHANIDE SERIESACTINIDE SERIES

Alkali metals

Alkaline Earth Metals Halogens

CHEMICAL FAMILIES

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ns1

np

ns2

np1np2np3np4np5np6

Li thru Cs

Be thru Ra

B thru Ti

C thru Pb

N thru Bi

O thru Po

F thru At

Ne thru Rn

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WHAT FACTORS DETERMINE THE PERIODIC TRENDS OF THE ELEMENTS ?

(1) THE NUMBER OF PROTONS AND ELECTRONS AN ATOM CONTAINS (MORE PROTONS CREATE A GREATER NUCLEAR CHARGE WHICH ATTRACTS ELECTRONS MORE STRONGLY

(2) DISTANCE SEPARATING THE OUTER ELECTRONS (VALENCE ELECTRONS) AND THE NUCLEUS (WHEN ELECTRONS ARE CLOSER TO THE NUCLEUS THEY ARE HELD MORE TIGHTLY)

(3) PAIRING OF ELECTRONS IN THE OUTER ENERGY LEVEL ORBITALS (PAIRED ELECTRONS ARE MORE STABLE THAN UNPAIRED ELECTRONS)

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FACTORS WHICH DETERMINE THE PERIODIC TRENDS OF THE ELEMENTS (CONT’D)•(

4) THE SYMMETRY OF OUTER ENERGY LEVEL ORBITAL POPULATIONS (GREATER SYMMETRY OF ELECTRON POPULATIONS GIVES MORE STABILITY)•(5) PROXIMITY OF OUTER ENERGY LEVEL ORBITALS TO EACHOTHER (WHEN ORBITALS ARE CLOSE TO EACHOTHER IN ENERGY THE ORDER OF ORBITAL FILLING MAY CHANGE. THIS IS ESPECIALLY TRUE FOR THE TRANSITATIONAL ELEMENTS)•(6) THE EXTENT TO WHICH THE OUTER ENERGY LEVEL IS FILLED (ATOMS ATTEMPT TO BECOME ISOELECTRONIC WITH THE NEAREST INERT GAS BY GAINING OR LOSING ELECTRONS, WHICH EVER IS EASIEST)

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FACTORS THAT DETERMINE THE PERIODIC TRENDS – ATOMIC RADII•A

AS WE MOVE ACROSS A ROW (PERIOD) FROM LEFT TO RIGHT ON THE PERIODIC TABLE, ATOMS BECOME SMALLER AS THE ATOMIC NUMBER BECOMES LARGER. THIS INCREASE IN NUCLEAR CHARGE ALLOWS THE NUCLEUS TO PULL IN THE ELECTRONS MORE TIGHTLY AND THEREBY REDUCE ATOMIC SIZE (RADIUS).•AAS WE MOVE DOWN A COLUMN ON THE PERIODIC TABLE, ELEMENTS CONTAIN MORE ELECTRONS AND MORE ENERGY LEVELS BECOME POPULATED RESULTING IN AN INCREASE IN ATOMIC SIZE (RADIUS). REMEMBER THAT COMPLETING A PERIOD ON THE PERIODIC TABLE RESULTS IN A COMPLETED ENERGY LEVEL WITHIN THE ATOM !

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TRENDS OF THE ELEMENTS ONTHE PERIODIC TABLE (ATOMIC RADII)

• SIZE OF ATOMS DECREASES

SIZE

INCREASES

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FACTORS THAT DETERMINE THE PERIODIC TRENDS – IONIC RADII•M

METAL ATOMS LOSE ELECTRONS TO BECOME ISOELECTRONIC WITH THE INERT GASES. ALKALI METALS (COLUMN I) FOR EXAMPLE NEED LOSE ONLY ONE ELECTRON TO BECOME ELECTRONICALLY LIKE THE NEAREST NOBLE GAS.THIS IS MUCH EASIER THAN GAINING SEVEN OR MORE ELECTRONS. ALKALINE EARTH METALS NEED TO LOSE ONLY TWO ELECTRONS TO ACHIEVE THE ISOELECTRONIC STATE.THIS IS MUCH EASIER THAN GAINING SIX OR MORE ELECTRONS•BBY CONSTRAST, NONMETALS GAIN ELECTRONS TO BECOME ISOELECTRONIC WITH THE INERT GASES. HALOGENS (COLUMN VII) NEED TO GAIN ONLY ONE ELECTRON TO ACHIEVE THE ISOELECTRONIC STATE. THIS IS MUCH EASIER THAN LOSING SEVEN OR MORE ELECTRONS. THE OXYGEN GROUP(COLUMN VI) NEEDS ONLY TO GAIN TWO ELECTRONS AGAIN EASIER THAN LOSING SIX OR MORE ELECTRONS.

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FACTORS THAT DETERMINE THE PERIODIC TRENDS – IONIC RADII (CONT’D)•W

WHEN POSITIVE IONS ARE FORMED BY THE METALS, ELECTRONS ARE LOST AND THE IONS ARE ALWAYS SMALLER THAN THE ATOMS FROM WHICH THEY ARE FORMED.•WWHEN NEGATIVE IONS ARE FORM BY THE NONMETALS, ELECTRONS ARE GAINED. THE NUMBERS OF PROTONS IN THE NUCLEUS REMAINS UNCHANGED. THEREFORE FEWER POSITIVE CHARGES (PROTONS) HOLD MORE NEGATIVE CHARGES (ELECTRONS) LESS TIGHTLY AND THE ION “BALLOONS” TO A LARGER SIZE. ANIONS ARE ALWAYS LARGER THAN THE ATOMS FROM WHICH THEY ARE FORMED•AANIONS IN THE SAME PERIOD ARE LARGER THAN CATIONS IN THAT ROW. THE MORE NEGATIVE THE ANION, THE LARGER IT IS!

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FACTORS THAT DETERMINE THE PERIODIC TRENDS – IONIC RADII (CONT’D)

• Na+1 IONS HAVE ONLY 2

FILLED ENERGY LEVELS

• K+1 IONS ARE LARGER AND

REQUIRE 3 FILLED ENERGY LEVELS

+11 2e 8e

+19 2e

18e 8e

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FACTORS THAT DETERMINE THE PERIODIC TRENDS – IONIC RADII (CONT’D)

+9 2e

8e

+7 2e

8e

F-1 ION HAS 9 PROTONS HOLDING 10 ELECTRONS A 9 p+ TO 10 e- RATIO

N-3 ION HAS ONLY 7 PROTONS HOLDING 10 ELECTRONS A 7 p+ TO 10 e - RATIO ELECTRONS ARE HELD LESS TIGHTLY & THE ION ENLARGES

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TRENDS OF THE ELEMENTS ONTHE PERIODIC TABLE (IONIC RADII)

• SIZE OF IONS INCREASES

SIZE

INCREASES

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FACTORS THAT DETERMINE THE PERIODIC TRENDS – IONIZATION ENERGIES

Na ATOMS HAVE 1 VALENCE

ELECTRON IN ENERGY LEVEL 3

K ATOMS ARE LARGER AND

HAVE 1 VALENCE ELECTRON IN ENERGY LEVELS 4, FURTHER FROM THE NUCLEUS & MORE EASILY REMOVED

+11 2e 8e

+19 2e

1e

8e

1e

18e

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FACTORS THAT DETERMINE THE PERIODIC TRENDS – IONIZATION ENERGIES (CONT’D)

+9 2e 7e

+11 2e

8e1e

F HAS 9 ELECTRONS IT IS EASIER TO GAIN 1 ELECTRON AND BECOME ISOELECTRONIC WITH NEON RATHER THAN TO LOSENONMETALS HAVE HIGH IE 7 ELECTRONS TO BECOME ISOELECTRONIC WITH He

Na HAS 11 ELECTRONS IT IS EASIER TO LOSE 1 ELECTRON AND BECOME ISOELECTRONIC WITH NEON RATHER THAN GAIN 7

ELECTRONS TO BECOME ISOELECTRONIC METALS HAVE LOW IE WITH ARGON

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FACTORS THAT DETERMINE THE PERIODIC TRENDS – IONIZATION ENERGIES (CONT’D)

• (1) WHEN ATOMS CONTAIN FEW VALENCE ELECTRONS (METALS – RIGHT SIDE OF THE PERIODIC TABLE), THEY ARE EASILY LOST IN ORDER TO ATTAIN COMPLETED SHELL CONFIGURATIONS AND IONIZATION ENERGY IS LOW AS COMPARED TO ATOM WITH MANY VALENCE ELECTRONS (NONMETALS – LEFT SIDE OF THE PERIODIC TABLE)

• (2) WHEN ELECTRONS ARE PAIRED IN AN ORBITAL, STABILITY IS INCREASED AND THE IONIZATION ENERGY IS HIGHER THAN FOR AN UNPAIRED ELECTRON IN THE SAME ORBITAL AT THE SAME ENERGY LEVEL.

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FACTORS THAT DETERMINE THE PERIODIC TRENDS – IONIZATION ENERGIES (CONT’D)

•(3) WHEN ORBITAL POPULATIONS ARE SYMMETRICAL (ALL HALF FILLED p OR d ORBITALS) ELECTRONS ARE HARDER TO REMOVE AND IONIZATION ENERGY IS LARGER

(4) REGARDING ATOMS WITH ELECTRONS OF SIMILAR CONFIGURATION (PAIRED VS UNPAIRED, METAL VS. NONMETAL) THOSE WITH ELECTRONS AT HIGHER ENERGY LEVELS HAVE LOWER IONIZATION ENERGIES. • (5) WHEN THE OUTER ENERGY LEVEL IS COMPLETE, ATOM BECOME HIGHLY STABLE AND IONIZATION IS GREATLY INCREASED.

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FACTORS THAT DETERMINE THE PERIODIC TRENDS – IONIZATION ENERGIES (CONT’D)

• (6) ONCE AN ELECTRON HAS BEEN REMOVED FROM AN ATOM THE REMOVING OF ADDITIONAL ELECTRONS BECOMES MORE AND MORE DIFFICULT.

• THIS MEANS THAT NO MATTER WHAT THE ELECTRON CONFIGURATION OF AN ATOM MIGHT BE, THE FIRST IONIZATION ENERGY IS ALWAYS LESS THAN THE SECOND IONIZATION ENERGY WHICH IN TURN IS ALWAYS LESS THAN THE THIRD ETC. FOR THAT PARTICULAR ATOM.

Page 29: Periodic Trends of the Elements

FACTORS THAT DETERMINE THE PERIODIC TRENDS – IONIZATION ENERGIES (CONT’D)

1S

2S

2PX PY PZ

3S

3PX PY PZ

LOW 1ST IE

(NO PAIRED

ELECTRONS)

2ND IE

SLIGHTLY

HIGHER

(PAIRED

ELECTRONS)

3RD IE

HIGHER THAN

2ND DUE TO MORE

PROTON

ATTRACTION

A COMPLETED

OUTER ENERGY

LEVEL – ION IS

NOW STABLE

Page 30: Periodic Trends of the Elements

TRENDS OF THE ELEMENTS ONTHE PERIODIC TABLE (IONIZATION ENERGY)

• ACROSS EACH ROW (PERIOD) IE INCREASES

D IO EWN D E A C RC EO AL SU EM SN

Page 31: Periodic Trends of the Elements

SUCCESSIVE IONIZATION ENERGIESOF SEVERAL ELEMENTS

• NOTICE THE RELATIONSHIP BETWEEN ELECTRON PAIRING, ENERGY LEVEL COMPLETIONS AND IE CHANGES

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FACTORS THAT DETERMINE THE PERIODIC TRENDS – ELECTRON AFFINITY

• ELEMENTS WHICH ARE MORE NONMETALLIC (TO THE LEFT & UP ON THE PERIODIC TABLE) HAVE GREATER ELECTRON AFFINITY. THOSE WHICH ARE MORE METALLIC (TO THE RIGHT & DOWN ON THE PERIODIC TABLE) HAVE LOWER ELECTRON AFFINITY.

Page 33: Periodic Trends of the Elements

TRENDS OF THE ELEMENTS ONTHE PERIODIC TABLE (ELECTRON AFFINITY)

• ACROSS EACH ROW (PERIOD) ELECTRON AFFINITY INCREASES

D I

O E

W

N D

E

A C

R

C E

O A

L S

U E

M S

N

Page 34: Periodic Trends of the Elements

FACTORS THAT DETERMINE THE PERIODIC TRENDS – ELECTRONEGATIVITY

• LIKE ELECTRON AFFINITY, ELEMENTS WHICH ARE MORE NONMETALLIC (TO THE LEFT & UP ON THE PERIODIC TABLE) HAVE GREATER ELECTRONEGATIVITY. THOSE WHICH ARE MORE METALLIC (TO THE RIGHT & DOWN ON THE PERIODIC TABLE) HAVE LOWER ELECTRONEGATIVITY.

• FLOURINE HAS THE HIGHEST ELECTRONEGATIVITY VALUE OF 4.0

• CESIUM HAS THE LOWEST ELECTRONEGATIVITY VALUE OF 0.7.

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TRENDS OF THE ELEMENTS ONTHE PERIODIC TABLE (ELECTRONEGATIVITY)

• ACROSS EACH ROW (PERIOD) ELECTRONEGATIVITY INCREASES

D EO NWN D E A C RC EO AL SU EM SN

Page 36: Periodic Trends of the Elements

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