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Period (periodic table)

October 21, 2023

A period on the periodic table is a row of chemical elements. All elements in a row have the same number of electron shells. Each next element in a period has one more proton and is less metallic than its predecessor. Arranged this way, elements in the same group (column) have similar chemical and physical properties, reflecting the periodic law. For example, the halogens lie in the second-to-last group (group 17) and share similar properties, such as high reactivity and the tendency to gain one electron to arrive at a noble-gas electronic configuration. As of 2022, a total of 118 elements have been discovered and confirmed.

In the periodic table of the elements, each numbered row is a period.
The Madelung energy ordering rule describes the order in which orbitals are arranged by increasing energy according to the Madelung rule. Each diagonal corresponds to a different value of n + l.

Modern quantum mechanics explains these periodic trends in properties in terms of electron shells. As atomic number increases, shells fill with electrons in approximately the order shown in the ordering rule diagram. The filling of each shell corresponds to a row in the table.

In the s-block and p-block of the periodic table, elements within the same period generally do not exhibit trends and similarities in properties (vertical trends down groups are more significant). However, in the d-block, trends across periods become significant, and in the f-block elements show a high degree of similarity across periods.

Periods Edit

There are currently seven complete periods in the periodic table, comprising the 118 known elements. Any new elements will be placed into an eighth period; see extended periodic table. The elements are colour-coded below by their block: red for the s-block, yellow for the p-block, blue for the d-block, and green for the f-block.

Period 1 Edit

Main article: Period 1 element
Group 1 18
Atomic #
Name 		1
H 		2
He

The first period contains fewer elements than any other, with only two, hydrogen and helium. They therefore do not follow the octet rule, but rather a duplet rule. Chemically, helium behaves like a noble gas, and thus is taken to be part of the group 18 elements. However, in terms of its nuclear structure it belongs to the s-block, and is therefore sometimes classified as a group 2 element, or simultaneously both 2 and 18. Hydrogen readily loses and gains an electron, and so behaves chemically as both a group 1 and a group 17 element.

  • Hydrogen (H) is the most abundant of the chemical elements, constituting roughly 75% of the universe's elemental mass.[1] Ionized hydrogen is just a proton. Stars in the main sequence are mainly composed of hydrogen in its plasma state. Elemental hydrogen is relatively rare on Earth, and is industrially produced from hydrocarbons such as methane. Hydrogen can form compounds with most elements and is present in water and most organic compounds.[2]
  • Helium (He) exists only as a gas except in extreme conditions.[3] It is the second-lightest element and is the second-most abundant in the universe.[4] Most helium was formed during the Big Bang, but new helium is created through nuclear fusion of hydrogen in stars.[5] On Earth, helium is relatively rare, only occurring as a byproduct of the natural decay of some radioactive elements.[6] Such 'radiogenic' helium is trapped within natural gas in concentrations of up to seven percent by volume.[7]

Period 2 Edit

Main article: Period 2 element
Group 1 2 13 14 15 16 17 18
Atomic #
Name 		3
Li 		4
Be 		5
B 		6
C 		7
N 		8
O 		9
F 		10
Ne

Period 2 elements involve the 2s and 2p orbitals. They include the biologically most essential elements besides hydrogen: carbon, nitrogen, and oxygen.

  • Lithium (Li) is the lightest metal and the least dense solid element.[8] In its non-ionized state it is one of the most reactive elements, and so is only ever found naturally in compounds. It is the heaviest primordial element forged in large quantities during the Big Bang .
  • Beryllium (Be) has one of the highest melting points of all the light metals. Small amounts of beryllium were synthesised during the Big Bang, although most of it decayed or reacted further within stars to create larger nuclei, like carbon, nitrogen or oxygen. Beryllium is classified by the International Agency for Research on Cancer as a group 1 carcinogen.[9] Between 1% and 15% of people are sensitive to beryllium and may develop an inflammatory reaction in their respiratory system and skin, called chronic beryllium disease.[10]
  • Boron (B) does not occur naturally as a free element, but in compounds such as borates. It is an essential plant micronutrient, required for cell wall strength and development, cell division, seed and fruit development, sugar transport and hormone development,[11][12] though high levels are toxic.
  • Carbon (C) is the fourth-most abundant element in the universe by mass after hydrogen, helium and oxygen[13] and is the second-most abundant element in the human body by mass after oxygen,[14] the third-most abundant by number of atoms.[15] There are an almost infinite number of compounds that contain carbon due to carbon's ability to form long stable chains of C—C bonds.[16][17] All organic compounds, those essential for life, contain at least one atom of carbon;[16][17] combined with hydrogen, oxygen, nitrogen, sulfur, and phosphorus, carbon is the basis of every important biological compound.[17]
  • Nitrogen (N) is found mainly as mostly inert diatomic gas, N2, which makes up 78% of the Earth's atmosphere by volume. It is an essential component of proteins and therefore of life.
  • Oxygen (O) comprising 21% of the atmosphere by volume and is required for respiration by all (or nearly all) animals, as well as being the principal component of water. Oxygen is the third-most abundant element in the universe, and oxygen compounds dominate the Earth's crust.
  • Fluorine (F) is the most reactive element in its non-ionized state, and so is never found that way in nature.
  • Neon (Ne) is a noble gas used in neon lighting.

Period 3 Edit

Main article: Period 3 element
Group 1 2 13 14 15 16 17 18
Atomic #
Name 		11
Na 		12
Mg 		13
Al 		14
Si 		15
P 		16
S 		17
Cl 		18
Ar

All period three elements occur in nature and have at least one stable isotope. All but the noble gas argon are essential to basic geology and biology.

Period 4 Edit

Main article: Period 4 element
Group 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
Atomic #
Name 		19
K 		20
Ca 		21
Sc 		22
Ti 		23
V 		24
Cr 		25
Mn 		26
Fe 		27
Co 		28
Ni 		29
Cu 		30
Zn 		31
Ga 		32
Ge 		33
As 		34
Se 		35
Br 		36
Kr
 
From left to right, aqueous solutions of: Co(NO3)2 (red); K2Cr2O7 (orange); K2CrO4 (yellow); NiCl2 (green); CuSO4 (blue); KMnO4 (purple).

Period 4 includes the biologically essential elements potassium and calcium, and is the first period in the d-block with the lighter transition metals. These include iron, the heaviest element forged in main-sequence stars and a principal component of the Earth, as well as other important metals such as cobalt, nickel, and copper. Almost all have biological roles.

Completing the fourth period are six p-block elements: gallium, germanium, arsenic, selenium, bromine, and krypton.

Period 5 Edit

Main article: Period 5 element
Group 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
Atomic #
Name 		37
Rb 		38
Sr 		39
Y 		40
Zr 		41
Nb 		42
Mo 		43
Tc 		44
Ru 		45
Rh 		46
Pd 		47
Ag 		48
Cd 		49
In 		50
Sn 		51
Sb 		52
Te 		53
I 		54
Xe

Period 5 has the same number of elements as period 4 and follows the same general structure but with one more post transition metal and one fewer nonmetal. Of the three heaviest elements with biological roles, two (molybdenum and iodine) are in this period; tungsten, in period 6, is heavier, along with several of the early lanthanides. Period 5 also includes technetium, the lightest exclusively radioactive element.

Period 6 Edit

Main article: Period 6 element
Group 1 2   3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
Atomic #
Name 		55
Cs 		56
Ba 		57
La 		58
Ce 		59
Pr 		60
Nd 		61
Pm 		62
Sm 		63
Eu 		64
Gd 		65
Tb 		66
Dy 		67
Ho 		68
Er 		69
Tm 		70
Yb 		71
Lu 		72
Hf 		73
Ta 		74
W 		75
Re 		76
Os 		77
Ir 		78
Pt 		79
Au 		80
Hg 		81
Tl 		82
Pb 		83
Bi 		84
Po 		85
At 		86
Rn

Period 6 is the first period to include the f-block, with the lanthanides (also known as the rare earth elements), and includes the heaviest stable elements. Many of these heavy metals are toxic and some are radioactive, but platinum and gold are largely inert.

Period 7 Edit

Main article: Period 7 element
Group 1 2   3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
Atomic #
Name 		87
 Fr  		88
Ra 		89
Ac 		90
Th 		91
Pa 		92
U 		93
Np 		94
Pu 		95
Am 		96
Cm 		97
Bk 		98
Cf 		99
Es 		100
Fm 		101
Md 		102
No 		103
Lr 		104
Rf 		105
Db 		106
Sg 		107
Bh 		108
Hs 		109
Mt 		110
Ds 		111
Rg 		112
Cn 		113
Nh 		114
Fl 		115
Mc 		116
Lv 		117
Ts 		118
Og

All elements of period 7 are radioactive. This period contains the heaviest element which occurs naturally on Earth, plutonium. All of the subsequent elements in the period have been synthesized artificially. Whilst five of these (from americium to einsteinium) are now available in macroscopic quantities, most are extremely rare, having only been prepared in microgram amounts or less. Some of the later elements have only ever been identified in laboratories in quantities of a few atoms at a time.

Although the rarity of many of these elements means that experimental results are not very extensive, periodic and group trends in behaviour appear to be less well defined for period 7 than for other periods. Whilst francium and radium do show typical properties of groups 1 and 2, respectively, the actinides display a much greater variety of behaviour and oxidation states than the lanthanides. These peculiarities of period 7 may be due to a variety of factors, including a large degree of spin–orbit coupling and relativistic effects, ultimately caused by the very high positive electrical charge from their massive atomic nuclei.

Period 8 Edit

Main article: Extended periodic table

No element of the eighth period has yet been synthesized. A g-block is predicted. It is not clear if all elements predicted for the eighth period are in fact physically possible. There may therefore be no ninth period.

See also Edit

References Edit

  1. ^ Palmer, David (November 13, 1997). "Hydrogen in the Universe". NASA. Retrieved 2008-02-05.
  2. ^ Jolly, William Lee (9 August 2019). "hydrogen". Encyclopædia Britannica.
  3. ^ "Helium: physical properties". WebElements. Retrieved 2008-07-15.
  4. ^ "Helium: geological information". WebElements. Retrieved 2008-07-15.
  5. ^ Cox, Tony (1990-02-03). "Origin of the chemical elements". New Scientist. Retrieved 2008-07-15.
  6. ^ "Helium supply deflated: production shortages mean some industries and partygoers must squeak by". Houston Chronicle. 2006-11-05.
  7. ^ Brown, David (2008-02-02). "Helium a New Target in New Mexico". American Association of Petroleum Geologists. Retrieved 2008-07-15.
  8. ^ Lithium at WebElements.
  9. ^ "IARC Monograph, Volume 58". International Agency for Research on Cancer. 1993. Retrieved 2008-09-18.
  10. ^ about chronic beryllium disease.
  11. ^ (PDF). www.borax.com/agriculture. U.S. Borax Inc. Archived from the original (PDF) on 2009-03-20.
  12. ^ Blevins, Dale G.; Lukaszewski, Krystyna M. (1998). "Functions of Boron in Plant Nutrition". Annual Review of Plant Physiology and Plant Molecular Biology. 49: 481–500. doi:10.1146/annurev.arplant.49.1.481. PMID 15012243.
  13. ^ Ten most abundant elements in the universe, taken from The Top 10 of Everything, 2006, Russell Ash, page 10. Retrieved October 15, 2008. February 10, 2010, at the Wayback Machine
  14. ^ Chang, Raymond (2007). Chemistry, Ninth Edition. McGraw-Hill. p. 52. ISBN 0-07-110595-6.
  15. ^ Freitas Jr., Robert A. (1999). Nanomedicine. Landes Bioscience. Tables 3-1 & 3-2. ISBN 1-57059-680-8.
  16. ^ a b "Structure and Nomenclature of Hydrocarbons". Purdue University. Retrieved 2008-03-23.
  17. ^ a b c Alberts, Bruce; Alexander Johnson; Julian Lewis; Martin Raff; Keith Roberts; Peter Walter. Molecular Biology of the Cell. Garland Science.

October 21, 2023
period, periodic, table, period, periodic, table, chemical, elements, elements, have, same, number, electron, shells, each, next, element, period, more, proton, less, metallic, than, predecessor, arranged, this, elements, same, group, column, have, similar, ch. A period on the periodic table is a row of chemical elements All elements in a row have the same number of electron shells Each next element in a period has one more proton and is less metallic than its predecessor Arranged this way elements in the same group column have similar chemical and physical properties reflecting the periodic law For example the halogens lie in the second to last group group 17 and share similar properties such as high reactivity and the tendency to gain one electron to arrive at a noble gas electronic configuration As of 2022 update a total of 118 elements have been discovered and confirmed In the periodic table of the elements each numbered row is a period The Madelung energy ordering rule describes the order in which orbitals are arranged by increasing energy according to the Madelung rule Each diagonal corresponds to a different value of n l Modern quantum mechanics explains these periodic trends in properties in terms of electron shells As atomic number increases shells fill with electrons in approximately the order shown in the ordering rule diagram The filling of each shell corresponds to a row in the table In the s block and p block of the periodic table elements within the same period generally do not exhibit trends and similarities in properties vertical trends down groups are more significant However in the d block trends across periods become significant and in the f block elements show a high degree of similarity across periods Contents 1 Periods 1 1 Period 1 1 2 Period 2 1 3 Period 3 1 4 Period 4 1 5 Period 5 1 6 Period 6 1 7 Period 7 1 8 Period 8 2 See also 3 ReferencesPeriods EditThere are currently seven complete periods in the periodic table comprising the 118 known elements Any new elements will be placed into an eighth period see extended periodic table The elements are colour coded below by their block red for the s block yellow for the p block blue for the d block and green for the f block Period 1 Edit Main article Period 1 element Group 1 18Atomic Name 1 H 2 HeThe first period contains fewer elements than any other with only two hydrogen and helium They therefore do not follow the octet rule but rather a duplet rule Chemically helium behaves like a noble gas and thus is taken to be part of the group 18 elements However in terms of its nuclear structure it belongs to the s block and is therefore sometimes classified as a group 2 element or simultaneously both 2 and 18 Hydrogen readily loses and gains an electron and so behaves chemically as both a group 1 and a group 17 element Hydrogen H is the most abundant of the chemical elements constituting roughly 75 of the universe s elemental mass 1 Ionized hydrogen is just a proton Stars in the main sequence are mainly composed of hydrogen in its plasma state Elemental hydrogen is relatively rare on Earth and is industrially produced from hydrocarbons such as methane Hydrogen can form compounds with most elements and is present in water and most organic compounds 2 Helium He exists only as a gas except in extreme conditions 3 It is the second lightest element and is the second most abundant in the universe 4 Most helium was formed during the Big Bang but new helium is created through nuclear fusion of hydrogen in stars 5 On Earth helium is relatively rare only occurring as a byproduct of the natural decay of some radioactive elements 6 Such radiogenic helium is trapped within natural gas in concentrations of up to seven percent by volume 7 Period 2 Edit Main article Period 2 element Group 1 2 13 14 15 16 17 18Atomic Name 3Li 4Be 5B 6C 7 N 8 O 9 F 10 NePeriod 2 elements involve the 2s and 2p orbitals They include the biologically most essential elements besides hydrogen carbon nitrogen and oxygen Lithium Li is the lightest metal and the least dense solid element 8 In its non ionized state it is one of the most reactive elements and so is only ever found naturally in compounds It is the heaviest primordial element forged in large quantities during the Big Bang Beryllium Be has one of the highest melting points of all the light metals Small amounts of beryllium were synthesised during the Big Bang although most of it decayed or reacted further within stars to create larger nuclei like carbon nitrogen or oxygen Beryllium is classified by the International Agency for Research on Cancer as a group 1 carcinogen 9 Between 1 and 15 of people are sensitive to beryllium and may develop an inflammatory reaction in their respiratory system and skin called chronic beryllium disease 10 Boron B does not occur naturally as a free element but in compounds such as borates It is an essential plant micronutrient required for cell wall strength and development cell division seed and fruit development sugar transport and hormone development 11 12 though high levels are toxic Carbon C is the fourth most abundant element in the universe by mass after hydrogen helium and oxygen 13 and is the second most abundant element in the human body by mass after oxygen 14 the third most abundant by number of atoms 15 There are an almost infinite number of compounds that contain carbon due to carbon s ability to form long stable chains of C C bonds 16 17 All organic compounds those essential for life contain at least one atom of carbon 16 17 combined with hydrogen oxygen nitrogen sulfur and phosphorus carbon is the basis of every important biological compound 17 Nitrogen N is found mainly as mostly inert diatomic gas N2 which makes up 78 of the Earth s atmosphere by volume It is an essential component of proteins and therefore of life Oxygen O comprising 21 of the atmosphere by volume and is required for respiration by all or nearly all animals as well as being the principal component of water Oxygen is the third most abundant element in the universe and oxygen compounds dominate the Earth s crust Fluorine F is the most reactive element in its non ionized state and so is never found that way in nature Neon Ne is a noble gas used in neon lighting Period 3 Edit Main article Period 3 element Group 1 2 13 14 15 16 17 18Atomic Name 11Na 12Mg 13Al 14Si 15P 16S 17 Cl 18 ArAll period three elements occur in nature and have at least one stable isotope All but the noble gas argon are essential to basic geology and biology Sodium Na is an alkali metal It is present in Earth s oceans in large quantities in the form of sodium chloride table salt Magnesium Mg is an alkaline earth metal Magnesium ions are found in chlorophyll Aluminium Al is a post transition metal It is the most abundant metal in the Earth s crust Silicon Si is a metalloid It is a semiconductor making it the principal component in many integrated circuits Silicon dioxide is the principal constituent of sand As Carbon is to Biology Silicon is to Geology Phosphorus P is a nonmetal essential to DNA It is highly reactive and as such is never found in nature as a free element Sulfur S is a nonmetal It is found in two amino acids cysteine and methionine Chlorine Cl is a halogen Since it is one of the most reactive elements it is often found on the Earth s surface as sodium chloride Its compounds used as a disinfectant especially in swimming pools Argon Ar is a noble gas making it almost entirely nonreactive Incandescent lamps are often filled with noble gases such as argon in order to preserve the filaments at high temperatures Period 4 Edit Main article Period 4 element Group 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18Atomic Name 19K 20Ca 21Sc 22Ti 23V 24Cr 25Mn 26Fe 27Co 28Ni 29Cu 30Zn 31Ga 32Ge 33As 34Se 35 Br 36 Kr nbsp From left to right aqueous solutions of Co NO3 2 red K2Cr2O7 orange K2CrO4 yellow NiCl2 green CuSO4 blue KMnO4 purple Period 4 includes the biologically essential elements potassium and calcium and is the first period in the d block with the lighter transition metals These include iron the heaviest element forged in main sequence stars and a principal component of the Earth as well as other important metals such as cobalt nickel and copper Almost all have biological roles Completing the fourth period are six p block elements gallium germanium arsenic selenium bromine and krypton Period 5 Edit Main article Period 5 element Group 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18Atomic Name 37Rb 38Sr 39Y 40Zr 41Nb 42Mo 43Tc 44Ru 45Rh 46Pd 47Ag 48Cd 49In 50Sn 51Sb 52Te 53I 54 XePeriod 5 has the same number of elements as period 4 and follows the same general structure but with one more post transition metal and one fewer nonmetal Of the three heaviest elements with biological roles two molybdenum and iodine are in this period tungsten in period 6 is heavier along with several of the early lanthanides Period 5 also includes technetium the lightest exclusively radioactive element Period 6 Edit Main article Period 6 element Group 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18Atomic Name 55Cs 56Ba 57La 58Ce 59Pr 60Nd 61Pm 62Sm 63Eu 64Gd 65Tb 66Dy 67Ho 68Er 69Tm 70Yb 71Lu 72Hf 73Ta 74W 75Re 76Os 77Ir 78Pt 79Au 80 Hg 81Tl 82Pb 83Bi 84Po 85At 86 RnPeriod 6 is the first period to include the f block with the lanthanides also known as the rare earth elements and includes the heaviest stable elements Many of these heavy metals are toxic and some are radioactive but platinum and gold are largely inert Period 7 Edit Main article Period 7 element Group 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18Atomic Name 87 Fr 88Ra 89Ac 90Th 91Pa 92U 93Np 94Pu 95Am 96Cm 97Bk 98Cf 99Es 100 Fm 101 Md 102 No 103 Lr 104 Rf 105 Db 106 Sg 107 Bh 108 Hs 109 Mt 110 Ds 111 Rg 112 Cn 113 Nh 114 Fl 115 Mc 116 Lv 117 Ts 118 OgAll elements of period 7 are radioactive This period contains the heaviest element which occurs naturally on Earth plutonium All of the subsequent elements in the period have been synthesized artificially Whilst five of these from americium to einsteinium are now available in macroscopic quantities most are extremely rare having only been prepared in microgram amounts or less Some of the later elements have only ever been identified in laboratories in quantities of a few atoms at a time Although the rarity of many of these elements means that experimental results are not very extensive periodic and group trends in behaviour appear to be less well defined for period 7 than for other periods Whilst francium and radium do show typical properties of groups 1 and 2 respectively the actinides display a much greater variety of behaviour and oxidation states than the lanthanides These peculiarities of period 7 may be due to a variety of factors including a large degree of spin orbit coupling and relativistic effects ultimately caused by the very high positive electrical charge from their massive atomic nuclei Period 8 Edit Main article Extended periodic table No element of the eighth period has yet been synthesized A g block is predicted It is not clear if all elements predicted for the eighth period are in fact physically possible There may therefore be no ninth period See also EditGroup periodic table References Edit Palmer David November 13 1997 Hydrogen in the Universe NASA Retrieved 2008 02 05 Jolly William Lee 9 August 2019 hydrogen Encyclopaedia Britannica Helium physical properties WebElements Retrieved 2008 07 15 Helium geological information WebElements Retrieved 2008 07 15 Cox Tony 1990 02 03 Origin of the chemical elements New Scientist Retrieved 2008 07 15 Helium supply deflated production shortages mean some industries and partygoers must squeak by Houston Chronicle 2006 11 05 Brown David 2008 02 02 Helium a New Target in New Mexico American Association of Petroleum Geologists Retrieved 2008 07 15 Lithium at WebElements IARC Monograph Volume 58 International Agency for Research on Cancer 1993 Retrieved 2008 09 18 Information about chronic beryllium disease Functions of Boron in Plant Nutrition PDF www borax com agriculture U S Borax Inc Archived from the original PDF on 2009 03 20 Blevins Dale G Lukaszewski Krystyna M 1998 Functions of Boron in Plant Nutrition Annual Review of Plant Physiology and Plant Molecular Biology 49 481 500 doi 10 1146 annurev arplant 49 1 481 PMID 15012243 Ten most abundant elements in the universe taken from The Top 10 of Everything 2006 Russell Ash page 10 Retrieved October 15 2008 Archived February 10 2010 at the Wayback Machine Chang Raymond 2007 Chemistry Ninth Edition McGraw Hill p 52 ISBN 0 07 110595 6 Freitas Jr Robert A 1999 Nanomedicine Landes Bioscience Tables 3 1 amp 3 2 ISBN 1 57059 680 8 a b Structure and Nomenclature of Hydrocarbons Purdue University Retrieved 2008 03 23 a b c Alberts Bruce Alexander Johnson Julian Lewis Martin Raff Keith Roberts Peter Walter Molecular Biology of the Cell Garland Science Retrieved from https en wikipedia org w index php title Period periodic table amp oldid 1152937414, wikipedia, wiki, book, books, library,

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