the atoms are ordered according to their atomic number and grouped into a table based on their valency and electron configuration
the vertical columns are called groups and members of the same group share the same number of valence electrons and thus share the much of the same chemical properties ie alkali metals noble gases halogens etc
== ==
1
1.0079HydrogenHמימןMeyman11776-259-2530.092
4.0026HeliumHeהליום
1895-272-2690.183
6.941LithiumLiליתיום
181718013470.534
9.0122BerylliumBeבריליום
1797127829701.855
10.811BoronBבור
1808230025502.346
12.0107CarbonCפחמןPahman2ancient350048272.267
14.0067NitrogenNחנקןHankan31772-210-1961.258
15.9994OxygenOחמצןHamtsan31774-218-1831.439
18.9984FluorineFפלואור
1886-220-1881.710
20.1797NeonNeניאון
1898-249-2460.911
22.9897SodiumNaנתרן
1807988830.9712
24.305MagnesiumMgמגנזיום
175563910901.7413
26.9815AluminumAlאלומיניום
182566024672.714
28.0855SiliconSiצורן
1824141023552.3315
30.9738PhosphorusPזרחןZarhan31669442801.8216
32.065SulfurSגופריתGofrit4ancient1134452.0717
35.453ChlorineClכלור
1774-101-353.2118
39.948ArgonArארגון
1894-189-1861.7819
39.0983PotassiumKאשלגןAshlagan41807647740.8620
40.078CalciumCaסידןSidan3180883914841.5521
44.9559ScandiumScסקנדיום
1879153928322.9922
47.867TitaniumTiטיטניום
1791166032874.5423
50.9415VanadiumVונדיום
1830189033806.1124
51.9961ChromiumCrכרום
1797185726727.1925
54.938ManganeseMnמנגן
1774124519627.4326
55.845IronFeברזלBarzel4ancient153527507.8727
58.9332CobaltCoקובלט
1735149528708.928
58.6934NickelNiניקל
1751145327328.929
63.546CopperCuנחושתNahoshet4ancient108325678.9630
65.39ZincZnאבץAvats4ancient4209077.1331
69.723GalliumGaגליום
18753024035.9132
72.64GermaniumGeגרמניום
188693728305.3233
74.9216ArsenicAsארסן
ancient816135.7234
78.96SeleniumSeסלניום
18172176854.7935
79.904BromineBrברום
1826-7593.1236
83.8KryptonKrקריפטון
1898-157-1533.7537
85.4678RubidiumRbרובידיום
1861396881.6338
87.62StrontiumSrסטרונציום
179076913842.5439
88.9059YttriumYאיטריום
1794152333374.4740
91.224ZirconiumZrזירקוניום
1789185243776.5141
92.9064NiobiumNbניוביום
1801246849278.5742
95.94MolybdenumMoמוליבדן
17812617461210.2243*98TechnetiumTcטכנטיום
19372200487711.544
101.07RutheniumRuרותניום
18442250390012.3745
102.9055RhodiumRhרודיום
18031966372712.4146
106.42PalladiumPdפלדיום
18031552292712.0247
107.8682SilverAgכסףKesef4ancient962221210.548
112.411CadmiumCdקדמיום
18173217658.6549
114.818IndiumInאינדיום
186315720007.3150
118.71TinSnבדילBdil4ancient23222707.3151
121.76AntimonySbאנטימון
ancient63017506.6852
127.6TelluriumTeטלוריום
17834499906.2453
126.9045IodineIיוד
18111141844.9354
131.293XenonXeקסנון
1898-112-1085.955
132.9055CesiumCsצזיום
1860296781.8756
137.327BariumBaבריום
180872511403.5957
138.9055LanthanumLaלנתן
183992034696.1558
140.116CeriumCeסריום
180379532576.7759
140.9077PraseodymiumPrפרסיאודימיום
188593531276.7760
144.24NeodymiumNdניאודימיום
1885101031277.0161*145PromethiumPmפרומתיום
1945110030007.362
150.36SamariumSmסמריום
1879107219007.5263
151.964EuropiumEuאירופיום
190182215975.2464
157.25GadoliniumGdגדוליניום
1880131132337.965
158.9253TerbiumTbטרביום
1843136030418.2366
162.5DysprosiumDyדיספרוסיום
1886141225628.5567
164.9303HolmiumHoהולמיום
1867147027208.868
167.259ErbiumErארביום
1842152225109.0769
168.9342ThuliumTmתוליום
1879154517279.3270
173.04YtterbiumYbאיטרביום
187882414666.971
174.967LutetiumLuלוטטיום
1907165633159.8472
178.49HafniumHfהפניום
19232150540013.3173
180.9479TantalumTaטנטלום
18022996542516.6574
183.84TungstenWטונגסטן
17833410566019.3575
186.207RheniumReרניום
19253180562721.0476
190.23OsmiumOsאוסמיום
18033045502722.677
192.217IridiumIrאירידיום
18032410452722.478
195.078PlatinumPtפלטינה
17351772382721.4579
196.9665GoldAuזהבZahav4ancient1064280719.3280
200.59MercuryHgכספיתKaspit5ancient-3935713.5581
204.3833ThalliumTlתליום
1861303145711.8582
207.2LeadPbעופרתOferet4ancient327174011.3583
208.9804BismuthBiביסמות
ancient27115609.7584*209PoloniumPoפולוניום
18982549629.385*210AstatineAtאסטטין
1940302337
86*222RadonRnרדון
1900-71-629.7387*223FranciumFrפרנסיום
193927677
88*226RadiumRaרדיום
189870017375.589*227ActiniumAcאקטיניום
18991050320010.0790
232.0381ThoriumThתוריום
18291750479011.7291
231.0359ProtactiniumPaפרוטקטיניום
19131568
15.492
238.0289UraniumUאורניום
17891132381818.9593*237NeptuniumNpנפטוניום
1940640390220.294*244PlutoniumPuפלוטוניום
1940640323519.8495*243AmericiumAmאמריציום
1944994260713.6796*247CuriumCmקיוריום
19441340
13.597*247BerkeliumBkברקליום
1949986
14.7898*251CaliforniumCfקליפורניום
1950900
15.199*252EinsteiniumEsאינשטייניום
1952860
100*257FermiumFmפרמיום
19521527
101*258MendeleviumMdמנדלביום
1955
102*259NobeliumNoנובליום
1958827
103*262LawrenciumLrלורנציום
19611627
104*261RutherfordiumRfרותרפורדיום
1964
105*262DubniumDbדובניום
1967
106*266SeaborgiumSgסיבורגיום
1974
107*264BohriumBhבוהריום
1981
108*277HassiumHsהסיום
1984
109*268MeitneriumMtמיטנריום
1982
According to increasing atomic number in 18 groups and seven periods.
the number of valence electrons and the number of electrons in the sub-shells determines the group number while the number of shells determines the period number.
Elements on the Periodic Table are ordered by their atomic number. An atomic number is how many protons are in that specific element.
According to the atomic number, which is the number of protons, which also indicates (generally) an increase in the Atomic Mass of the atoms.
Elements are arranged in increasing atomic number. They are arranged in groups and periods.
By the number of protons in the atom and in rows and columns.
Mendeleev's version of the Periodic Table was organized by increasing mass. The modern periodic table is now organized by atomic number.
Yes.The modern periodic table is organized by atomic number. The elements properties are found to be periodic.
Dimetri Mendeleev was a Russian chemist. He is credited for his version of periodic table which was better than anyone else's during that time. He organized elements almost accurately and formed the basis for the Modern Periodic Table.
In the modern version of the periodic table, the elements are arranged in increasing order of the atomic number. The chemical properties of an element can be predicted by its group. For example group 1 elements react violently to give away one electron to form +1 ions where group 18 elements are inert in standard temperature and pressure. This periodic table was introduced by Henry Mosley.
Periodic table of elements.
Mendeleev's version of the Periodic Table was organized by increasing mass. The modern periodic table is now organized by atomic number.
Yes.The modern Periodic Table is organized by atomic number. The elements properties are found to be periodic.
Yes.The modern periodic table is organized by atomic number. The elements properties are found to be periodic.
Dimetri Mendeleev was a Russian chemist. He is credited for his version of periodic table which was better than anyone else's during that time. He organized elements almost accurately and formed the basis for the Modern Periodic Table.
There are more elements and it's organized differently
The Russian. chemist Dimitri Mendeleev in 1869.
Dmitri Mendeleev
He made the periodic table. When he found gaps he said there were unknown elements, he was right and those elements were found in his lifetime.Mendeleev was the first person to organize the elements into what we would recognize as a version of the modern periodic table.
In the modern version of the periodic table, the elements are arranged in increasing order of the atomic number. The chemical properties of an element can be predicted by its group. For example group 1 elements react violently to give away one electron to form +1 ions where group 18 elements are inert in standard temperature and pressure. This periodic table was introduced by Henry Mosley.
The periodic table was created by Dmitri Mendeleev in 1869. He organized the elements based on their chemical properties and their atomic weights, creating a system that arranged the elements into groups and periods. This arrangement allowed for the prediction of missing elements and became the basis for the modern periodic table.
The Periodic Table has 118 elements and counting...
The modern Periodic Table arranges elements based on properties. These properties include valence electrons of the elements and density for example.