Periodic Table of Physical Elements

Transcription

1 Periodic Table of Phyical Eleent Periodic Table of Phyical Eleent Author:Zhiqiang Zhang fro Dalian, China Eail: ABSTRACT Thi i one of y original work in phyic to preent periodic table of phyical eleent which i invented with help of rule of STC, rule of STV and SI unit yte. All of phyical realitie deignated by phyical unit poe an coon nature of pace tie tructure that can be excluively decribed by pace tie configuration (STC) and pace tie value (STV). Any phyical reality bearing uch kind of coon nature i called a phyical eleent, uch a, pace eleent, tie eleent, a eleent, energy eleent, oentu eleent, angular oent eleent, electric quantity eleent, agnetic oent eleent, teperature eleent, ol eleent and o on. By STC and STV, all of phyical eleent known and unknown or unidentified have been counted tatitically and uarized in for of table entitled Periodic table of phyical eleent, abbreviated PTPE. PTPE i conit of table, aong which the th table i irregular coefficient one, while other table are regular coefficient one. For regular coefficient table, each of the contain 6 phyical eleent, and each of 6 phyical eleent exhibit by it pace tie configuration, pace tie value, nae of phyical unit, it ign in phyic and erial No. in PTPE. More then phyical eleent in total howcae in uch way in thi PTPE. KEYWORDS Phyical Eleent Periodic Table of Phyical Eleent Space Tie Structure Space Tie Configuration Space Tie Value Dienional Space Dienional Tie

2 Periodic Table of Phyical Eleent TEXT There are four ection in thi paper, ection one i about axio of phyc, ection two i introduction to rule of pace tie configuration and rule of pace tie value, ection three erve to periodic table of phyical eleent, ection four briefly dicue raification and role of the PTPE in developent of phyic. Firtly to appoint a writing regarding phyical quantitie. To expre any phyical quantity by A = A di A, and call A a odulu value of the phyical quantity, di A a phyical unit of the phyical quantity. Section One Axio of Phyic For any phyical reality deignated by phyical unit correponding phyical reality that i, di A, there alway exit an A G whoe pace tie value i contantly equal to. A G = A di A and STV ( ). G Axio of phyic i an abtracted reult fro principle of the great ultiate which i core of Taoi of Chinee religion. It i preuedly conidered by the author a logic origin of whole theoretical yte of phyic. Section Two Rule of STC and STV Under axio of phyic, with help of SI unit yte, referred to Planck unit yte, decription in phyic for pace tie tructure of all phyical realitie can be obtained and identically expreed in anner of pace tie configuration and pace tie value of phyical unit which trictly follow rule of STC and rule of STV. Rule of STC For any phyical reality deignated by phyical unit di A, expreion of it pace tie tructure identically abide by a logic forat a STC (di A) = B a where, di A) aid pace tie configuration of phyical unit. denote an unit of one dienional pace or length unit. denote an unit of one dienional tie or tie unit. b A G

3 Periodic Table of Phyical Eleent a, b =,,,,,,,,,,. B aid coeffifient and B G = Called thi regulation the above a rule of pace tie configuration for phyical unit, abbreviated Rule of STC. Interpretation to the Rule : All of phyical ralityie poe pace tie tructure which are copoed of pecific aount of dienional pace, or dienional tie, or dienional pace and dienional tie cobined. Applicability of the Rule : Rule of STC i applicable to all branche of phyic. Exaple of the STC : STC of tie unit STC = ( ) STC of length unit STC of a unit STC = STC ( kg) ( ) = STC of ol unit STC ( ol) = a STC of electric current trength unit A) = STC of therodynaic teperature unit K) a = N A.777 kg STC ( N C) STC ( S) STC ) ) = = = kg = ( H) = A ) ) = = STC ( W) V ) STC ( W STC STC ( V ) = = = ) ( Ω ) = W b ) = G ) = = J) W A = STC ( kg STC ( C STC ( JT STC ( T ) Hz ) = ) = ) ) ) = = = = where, a = (theoretical value) 7 N A = (theoretical value)

4 Periodic Table of Phyical Eleent G = (theoretical value) G = (theoretical value) Regarding ource for theoretical value, I a willing to give explanation inide another paper to be ubitted at a tie appropriate. Rule of STV For any phyical reality deignated by phyical unit di A, it pace tie tructure ha nueric characteritic that can be excluively expreed by pace tie value. The pace tie value identically tick to a logic forat a a di A) = B b ) = B a ) where, STV (di A) aid pace tie value of phyical unit. STV ( ) = STV ( ) = Called thi regulation the above a rule of pace tie value for phyical unit, abbreviated Rule of STV. Interpretation to the Rule : Space tie value of phyical unit reflect nueric nature of phyical realitie, alo are quantitative tipulation to phyical quantitie b ) A G and excluive. Space tie value ean value in ath, it ha no zero value, no infinite value ether. Applicability of the Rule : Rule of STV i applicable to all branche of phyic. Exaple of STV (theoretical value): STV ( ) = and excluive. STV ( ) = and excluive. STV ( kg) =.8& 7 and excluive. STV ( K ) =.87 8 and excluive. STV ( A) =.8 68 and excluive. STV ( ol) = and excluive. = & & & STV ( J ).7 and excluive. STV ( N ) =.8 7 and excluive. STV and excluive. ( kg ) =.6&

5 Periodic Table of Phyical Eleent STV ( kg ) = and excluive. 9 STV ( kg ) =.978 and excluive. STV ( C) = and excluive. 9 STV ( JT ) = and excluive. STV ( W b ) = and excluive. 6 STV ( A ) = and excluive. STV ( W ) = and excluive. Section Three Periodic Table of Phyical Eleent All of phyical realitie deignated by phyical unit or phyical quantitie poe an coon nature of pace tie tructure that can be excluively expreed by pace tie configuration (STC) and pace tie value (STV). Any phyical reality bearing uch kind of coon nature i called a phyical eleent, uch a pace eleent, tie eleent, a eleent, energy eleent, oentu eleent, angular oent eleent, electric quantity eleent, agnetic oent eleent, teperature eleent and o on. Periodic table of phyical eleent,abbreviated a PTPE, are ade under rule of STC and rule of STV to lit STC & STV expreion for all kind of phyical eleent know and unknown alike. There are two kind of coefficient B In STC forat, one kind i regular coefficient that i currently dicovered a B = G, B = G and B =. Another kind i irregular one that take pecific value. Regular coefficient take B = G and B = for phyical unit in echanic and radioetry, take B = G and B = in electroagnetic,while irregular coefficient alway how up in STC forat of ot of phyical unit in both therodynaic and tatitical phyic. PTPE i conit of table, aong which the th table i irregular coefficient one, while other table are regular coefficient one. For regular coefficient table, each of the contain 6 phyical eleent, and each of 6 phyical eleent exhibit by it pace tie configuration, pace tie value, nae of phyical unit, ign in phyic and

6 Periodic Table of Phyical Eleent erial No. in PTPE. More then phyical eleent in total are howcaed in uch way in PTPE. The PTPE i fabricated along with change in coefficient B and nuber of dienion of dienional pace and dienional tie. Soe reult hown in PTPE indicate that few pace tie tructure ay have double even ultiple phyical characteritic. STC of Luinou intenity unit and it derived unit have not been figured out yet by the author, o thoe phyical eleent related have not been identified in PTPE o far. In the PTPE, there are large aount of unknown phyical eleent arked by, there are at leat three ituation for the. Firtly oe of the are ied fro the author,.econdly oe of the have exited in nature but not found by phyic at preent, thirdly oe of the have not created yet and will be gradually produced in evolving proce of the univere. At preent, nuber of known, new and unknown phyical eleent in the PTPE are In PTPE- Ⅰ, eleent known, eleent new, 8 eleent unknown. In PTPE- Ⅱ, eleent known, eleent new, eleent unknown. In PTPE- Ⅲ, eleent known, eleent new, eleent unknown. In PTPE-Ⅳ, eleent known, eleent new, eleent unknown. In PTPE-Ⅴ, eleent known, eleent new, eleent unknown. In PTPE-Ⅵ, eleent known, eleent new, eleent unknown. In PTPE-Ⅶ, eleent known, eleent new, eleent unknown. In PTPE-Ⅷ, eleent known, eleent new, eleent unknown. In PTPE-Ⅸ, eleent known, 7 eleent new, 9 eleent unknown. In PTPE-Ⅹ, eleent known, 9 eleent new, eleent unknown. In PTPE-Ⅺ, eleent known, 6 eleent new, eleent unknown. In PTPE-Ⅻ, 6 eleent known, 8 eleent new, eleent unknown. In PTPE-ⅩⅢ eleent known, eleent new. Uncertain. Color identification in PTPE are Orange-yellow: value eleent Green : Phyical eleent new Yellow: Phyical eleent known Gray: Phyical eleent unknown Blue: Eleentary eleent (dienional pace and dienional tie) 6

7 Periodic Table of Phyical Eleent t Table of Phyical Eleent(PTPE-Ⅰ) ( No. ~ No. 6 ) a =,,,,, ; b =,,,,, ; B = G b a G No Value eleent G No Natural heat conductivity λ n No Ma denity kg No No No No Natural entropy S n No.8.89 No No..99 No.6. 8 No No No No No Dynaic vicoity kg No Preure, Energy denity N No Radiant exitance M eλ No..8 9 Coic vacuu V a No No Ma kg No Natural ol energy E n No Surface tenion N No Radiance W No No..6 8 No.7.9 No..6 Moentu kg No.9.8 Force N No.. 87 Spectral power Φ eλ No No No No..779 Angular oent kg No..77 Energy J No Power W 7

8 Periodic Table of Phyical Eleent nd Table of Phyical Eleent(PTPE-Ⅱ) ( No. 7 ~ No. 7 ) a =,,,,, ; b =,,,,, ; B = G b a G No Value eleent G No Natural heat conductivity λ n No Ma denity kg No No No No No No No No No No No No No No No No..888 No No No No No No No No..989 No No No No No No No No No

9 Periodic Table of Phyical Eleent rd Table of Phyical Eleent(PTPE-Ⅲ) ( No. 7 ~ No. 8 ) a =,,,,, ; b =,,,,, ; B = G b a G No Value eleent G No No No No No No Natural entropy S n No No No.9.7 No No No No No No No No No Coic Vacuu V a No No No.9.86 No No No No No No No No No No No No No No

10 Periodic Table of Phyical Eleent th Table of Phyical Eleent(PTPE-Ⅳ) ( No. 9 ~ No. ) a =,,,,, ; b =,,,,, ; B = G b a G No Value eleent G No No No No No No No.6.79 Natural ol entropy No No No No No No No No No No No..888 No No No No No No No.9. No No No No No No No No No No..6889

11 Periodic Table of Phyical Eleent a b th Table of Phyical Eleent (PTPE-Ⅴ) ( No. ~ No. 8 ) a =,,,,, ; b =,,,,, ; B = G No Value eleent G No Magnetic flux denity T No Charge denity C No No No No No No Strength of electric field V No Denity of electric current A No No No No..676 Magnetic flux W b No Voltage V No Strength of agnetic field A No No No No..667 No.6.87 Electric quantity C No.66.8 Strength of electric current A No No No No No No No No No No No No Magnetic oent JT No.7.97 No

12 Periodic Table of Phyical Eleent a b 6 th Table of Phyical Eleent(PTPE-Ⅵ) ( No. 8~ No. 6 ) a =,,,,, ; b =,,,,, ; B = G No Value eleent G No.87 7 Magnetic flux denity T No Charge denity C No No..776 No No No No No No No..77 No No No No.7.9 No No. 88 No No No No No No No No No No No No. 7 7 No No No No No No

13 Periodic Table of Phyical Eleent 7 th Table of Phyical Eleent(PTPE-Ⅶ) ( No.7 ~ No. ) a =,,,,, ; b =,,,,, ; B = G b a G No Value eleent G No No No No No No No No No No No No No No No No..8 No No No No No No..7 7 No No..786 No No No No No No No No No No No

14 Periodic Table of Phyical Eleent 8 th Table of Phyical Eleent(PTPE-Ⅷ) ( No. ~ No. 88 ) a =,,,,, ; b =,,,,, ; B = G b a G No Value eleent G No.9 No No.6 No. 7 No No.6 No.66 No.67 No.68 No.69 No No.7 No.7 No.7 No.7 No.7 No No.77 No.78 No.79 No.8 No.8 No No. 8 No.8 No.8 No.86 No.87 No No.6 8 No.6 No.7 No.6 No.8 77 No.6

15 Periodic Table of Phyical Eleent No.89. Vaule eleent Tie of inu one dienion Tie of inu two dienion.686 Tie of inu three dienion.789 Tie of inu four dienion.7978 Tie of inu five dienion 9 th Table of Phyical Eleent(PTPE-Ⅸ) ( No.89 ~ No. ) a =,,,,, ; b =,,,,, ; B = a b No.9 No. 86 No.7 9 No. 7 No. 9 No Space of one dienion No.96. Veloity No. Acceleration No No No No Space of two dienion No Kineatic vicoity No.. 7 Specific energy Jkg No Aborb doe Gy No.. No No Space of three dienion.777 Flux No.98 6 No No No No No Space of four dienion No No No No No No Space of five dienion No No No..678 No.8.97 No..6

16 Periodic Table of Phyical Eleent. Value eleent Frequency Tie of inu two dienion.686 Tie of inu three dienion.789 Tie of inu four dienion.7978 Tie of inu five dienion th Table of Phyical Eleent(PTPE-Ⅹ) ( No. ~ No. 6 ) a =,,,,, ; b =,,,,, ; B = a b No. No. Hz No.7 86 No. 9 No.9 7 No. No.6.99 Space of iu one dienion No.. 77 No No No No No Space of iu two dienion No..677 No No No No No Space of iu three dienion No No.. 88 No No No No Space of iu four dienion No No No No No No Space of iu five dienion No No No.8.66 No..87 No

17 Periodic Table of Phyical Eleent No.6. Value eleent Tie of one dienion. Tie of two dienion Tie of three dienion Tie of four dienion. Tie of five dienion th Table of Phyical Eleent(PTPE-Ⅺ) ( No.6~ No. 96 ) a =,,,,, ; b =,,,,, ; B = a b No.67 No.7 86 No.79 9 No.8 7 No.9 No Capacitance F No No No No No No Space of two dienion No No.7.6 No No No No Space of three dienion No No No No No No Space of four dienion No No.77.6 No No No No Space of five dienion No No No No No

18 Periodic Table of Phyical Eleent th Table of Phyical Eleent (PTPE-Ⅻ) ( No.97 ~ No. ) a =,,,,, ; b =,,,,, ; B = a b No.97. Value eleent No Tie of one dienion No Tie of two dienion No Tie of three dienion No Tie of four dienion No.7. Tie of five dienion No Nuber of wave λ No Electric reitance Ω No..896 Inductiance H No No No No Space of iu two dienion No No Pereability No No No No Space of iu three ienion No No No No No No Space of iu four dienion No No No No No No Space of iu five dienion No No No..888 No No

19 Periodic Table of Phyical Eleent a ± b No. B Value eleent Heat conductivity Radioactivity.997 Unit inforation G.8 th Table of Phyical Eleent(PTPE-ⅩⅢ) ( ~ ) No No 68 a =, ±, ±, ±, ±, ± b =, ±, ±, ±, ±, ± ± ± ± ± ± B G No. 9 N A G a W K No. 9 Bq No. ± M G i, i 9 No. 96 No. N A G a.7 Entropy S No. a.8787 ol conductivity kg ol A No. N A G.796 ol entropy JK ol No. a ol volue ol No. = a ol denity ol No.6 ± B ± B ± ± ) No. No.6 No.7 No.8 B ± B ± B ± B ± ± B ) ± B ) ± STV ( B ) ± B ) No. a ol No.7 a N A Specific entropy kg K J No. No. No. ± B ± ± B ± ± B ± ± B ± ) ± B ± ) ± STVB ( ) No.8 No.9 No. ± B ± ± B ± ± B ± ± B ± ± ) B ± ) ± STVB ( ) 9

20 Periodic Table of Phyical Eleent Specific volue kg No. No. No. ± ± B ± B ± ± B ± ± STV ( B ) ± B ± ) ± B ± ) No. a G.8676 Mol energy J ol No. 7 No.8 No.9 No.6 ± ± B ± B ± ± B ± ± B ± ± STV ( B ) ± STVB ( ) ± B ± ) ± B ± ) No. No. 6 ± ± ± B B ± ± STV ( B ± ± ) STV ( B ± ) No.6 a N A.878 Therodynaic teperature No.6 ± B ± ± B ± ) K No. 6 No.6 No.6 No.66 No.67 No.68 ± ±6 B ± B ± ± B ± ± B ± ± B ± ± B ± ±6 STV ( B ) ± B ± ) ± B ± ) ± B ± ) ± STVB ( ) ± B ± ) Section Four Raification and Role in Phyic of PTPE PTPE can ake u get outlook in general over all of phyical eleent exited and to exit in nature, provide a new way o convenient to cob relation of phyical eleent in between, and i uch helpful for u to dicover new phyical eleent and new relation aong phyical eleent a well. All in all, PTPE erve a a guideline for people to fully get acknowledge about phyical eleent and relation in between. Role PTPE played in phyic at leat give expreion to following apect., Be conductive to dicover new phyical eleent by iilarity in STC For intance, No.6 eleent and No.6 eleent are ae in ter of dienional pace and dienional tie, difference in between i only coefficient, thee two eleent have iilarity in STC. While a eleent and electric quantity eleent ha iilar role in echanic and eletroagnetic repectively. Another exaple, No. eleent and No.68 eleent are ae in ter of dienional pace and dienional tie, difference in between i only coefficient, thee two eleent have iilarity in STC. While angular oent eleent

21 Periodic Table of Phyical Eleent and agnetic oent eleent ha iilar role in echanic and eletroagnetic repectively. So we can ake ue of uch kind of iilarity in STC to coprehend and peculate over unknown eleent, therefore to dicover new phyical eleent in thi way. For intance, by phyical eaning of No. eleent of energy, we can peculate that of No.7 unknown eleent in eletroagnetic. Another exaple, by phyical eaning of No.9 eleent of voltage, we can peculate that of No. unknown eleent in echanic or in radioetry., Be uch eaier to ake clear about relation between phyical eleent known For intance, by oe of content in t and th table of phyical eleent a below,, No..6 Moentu kg No.9.8 Force N No.. 87 Spectural power Φ eλ No..779 Angular oent kg No..77 Energy J No Power W No Strength of electric field V No Denity of electric current A No Voltage V No Strength of agnetic field A No.6.87 Electric quantity C No.66.8 Strength of electric current A and by knownledge in phyic related, it i well known that No. eleent of energy interact with one dienional pace to produce No. eleent of angular oent. Tie rage of No. eleent of energy produce No. eleent of power. Tie rage of No. eleent of oentu produce No.6 eleent of energy. Tie rage of No.6 eleent of electric quantity produce No.66 eleent of electric current trength. So it i uch eaier to ake clear about relation for oe phyical eleent known,

22 Periodic Table of Phyical Eleent uch a, Tie rage of No.8 eleent of electric field trength produce No.6 eleent of denity of electric current. Tie rage of No.9 eleent of voltage produce No.6 eleent of agnetic field trength., Be helpful to coprehend over unknown eleent For intance, by following content of th table of phyical eleent, No Denity of electric current A No No Strength of agnetic field A No No.66.8 Strength of electric current A No No No No Magnetic oent JT No.7.97 We can peculate that Tie rate of No.6 denity of electric current produce No.7 unknown eleent. Tie rate of No.6 trength of agnetic field produce No.7 unknown eleent. Tie rate of No.66 electric current trength produce No.7 unknown eleent. Tie rate of No.68 agnetic oent eleent produce No.7 unknown eleent., Speculation to phyical interaction of No.6 phyical eleent No.6 eleent ituated in th table ha double characteritic with ae STC, one i phyically repreent an unit of one dienional pace, another phyically repreent an unit of capacitance, No.6. Value eleent No Capacitance F No Space of two dienion No Space of three dienion.7679 Space of four dienion Space of five dienion By thi nature of No.6 eleent, we can peculate about nature of oe phyical eleent unknown. For intance, by following content in th table of phyical eleent, No.6 7 No.66 7

23 Periodic Table of Phyical Eleent No Magnetic induction T No Charge denity C No No Strength of electric field V No..676 Magnetic flux W b No Voltage V No..667 No.6.87 Electric quantity C No No No No it i reaonable to peculate that No.6 eleent of capacitance interact with No. eleent of agnetic inductance to produce No. eleent unknown. No.6 eleent of capacitance interact with No. eleent of agnetic flux to produce No. eleent unknown. No.6 eleent of capacitance interact with No.6 eleent of electric quantity to produce No.6 eleent unknown. Such kind of peculation can jutify if following relationhip can be verified by phyic, No.6 eleent of capacitance interact with No.7 eleent of charge denity alo to produce No.8 eleent of electric field trength. No.6 eleent interact with No.8 eleent of electric field trength alo to produce No.9 eleent of voltage. No.6 eleent interact with No.9 eleent of voltage alo to produce No.9 eleent of electric quantity. APPENDIX Definition of Dienional Space and Dienional Tie Definition of Dienional Space To define phyical eleent denoted by a a a dienional pace, and call a a nuber of dienion of a dienional pace. aid unit of length, a =,,,,. Meaning in phyic: Dienional pace are eleentary eleent to copoe all of other phyical eleent together with dienional tie. Definition of Dienional Tie To define phyical eleent denoted by b a b dienional pace, and call b a nuber of dienion of b dienional tie. aid unit of tie, b =,,,,. Meaning in phyic: Dienional tie are eleentary eleent to copoe all of other phyical eleent together with dienional pace. REFERENCE Directionary of Phyic, Longdao Xu, Beijing,,, Science Pre