The chemical symbol for Potassium is K. Atomic Mass of Potassium. Atomic mass of Potassium is 39.0983 u. Note that, each element may contain more isotopes, therefore this resulting atomic mass is calculated from naturally-occuring isotopes and their abundance. The unit of measure for mass is the atomic mass unit (amu). Relative atomic mass: 39.098 State at 20°C: Solid Key isotopes 39 K Electron configuration Ar 4s 1 CAS number: 7440-09-7 ChemSpider ID: 4575326: ChemSpider is a free chemical structure database. Instant free online tool for Atomic mass unit to gram conversion or vice versa. The Atomic mass unit u to gram g conversion table and conversion steps are also listed. Also, explore tools to convert Atomic mass unit or gram to other weight and mass units or learn more about weight and mass conversions. Please provide values below to convert Atomic mass unit u to kilogram kg, or vice versa. Atomic Mass Unit to Kilogram Conversion Table How to Convert Atomic Mass Unit to Kilogram 1 u = 1.6605402E-27 kg.
The elemenents of the periodic table sorted by atomic mass
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39 19 K Atomic Mass
This list contains the 118 elements of chemistry.
| The chemical elements of the periodic chart sorted by: | Atomic Mass | Name chemical element | Symbol | Atomic number |
| - Name alphabetically | 1.0079 | Hydrogen | H | 1 |
| - Atomic number | 4.0026 | Helium | He | 2 |
| - Symbol | 6.941 | Lithium | Li | 3 |
| - Atomic Mass | 9.0122 | Beryllium | Be | 4 |
| - Electronegativity | 10.811 | Boron | B | 5 |
| - Density | 12.0107 | Carbon | C | 6 |
| - Melting point | 14.0067 | Nitrogen | N | 7 |
| - Boiling point | 15.9994 | Oxygen | O | 8 |
| - Vanderwaals radius | 18.9984 | Fluorine | F | 9 |
| - Year of discovery | 20.1797 | Neon | Ne | 10 |
| - Inventor surname | 22.9897 | Sodium | Na | 11 |
| - Elements in earthcrust | 24.305 | Magnesium | Mg | 12 |
| - Elements in human body | 26.9815 | Aluminum | Al | 13 |
| - Covalenz radius | 28.0855 | Silicon | Si | 14 |
| - Ionization energy | 30.9738 | Phosphorus | P | 15 |
For chemistry students and teachers: The tabular chart on the right is arranged by Atomic mass (weight). The lightest chemical element is Hydrogen and the heaviest is Hassium. The unity for atomic mass is gram per mol. Please note that the elements do not show their natural relation towards each other as in the Periodic system. There you can find the metals, semi-conductor(s), non-metal(s), inert noble gas(ses), Halogens, Lanthanoides, Actinoids (rare earth elements) and transition metals. | 32.065 | Sulfur | S | 16 |
| 35.453 | Chlorine | Cl | 17 | |
| 39.0983 | Potassium | K | 19 | |
| 39.948 | Argon | Ar | 18 | |
| 40.078 | Calcium | Ca | 20 | |
| 44.9559 | Scandium | Sc | 21 | |
| 47.867 | Titanium | Ti | 22 | |
| 50.9415 | Vanadium | V | 23 | |
| 51.9961 | Chromium | Cr | 24 | |
| 54.938 | Manganese | Mn | 25 | |
| 55.845 | Iron | Fe | 26 | |
| 58.6934 | Nickel | Ni | 28 | |
| 58.9332 | Cobalt | Co | 27 | |
| 63.546 | Copper | Cu | 29 | |
| 65.39 | Zinc | Zn | 30 | |
| 69.723 | Gallium | Ga | 31 | |
| 72.64 | Germanium | Ge | 32 | |
| 74.9216 | Arsenic | As | 33 | |
| 78.96 | Selenium | Se | 34 | |
| 79.904 | Bromine | Br | 35 | |
| 83.8 | Krypton | Kr | 36 | |
| 85.4678 | Rubidium | Rb | 37 | |
| 87.62 | Strontium | Sr | 38 | |
| 88.9059 | Yttrium | Y | 39 | |
| 91.224 | Zirconium | Zr | 40 | |
| 92.9064 | Niobium | Nb | 41 | |
| 95.94 | Molybdenum | Mo | 42 | |
| 98 | Technetium | Tc | 43 | |
| 101.07 | Ruthenium | Ru | 44 | |
| 102.9055 | Rhodium | Rh | 45 | |
| 106.42 | Palladium | Pd | 46 | |
| 107.8682 | Silver | Ag | 47 | |
| 112.411 | Cadmium | Cd | 48 | |
| 114.818 | Indium | In | 49 | |
| 118.71 | Tin | Sn | 50 | |
| 121.76 | Antimony | Sb | 51 | |
| 126.9045 | Iodine | I | 53 | |
| 127.6 | Tellurium | Te | 52 | |
| 131.293 | Xenon | Xe | 54 | |
| 132.9055 | Cesium | Cs | 55 | |
| 137.327 | Barium | Ba | 56 | |
| 138.9055 | Lanthanum | La | 57 | |
| 140.116 | Cerium | Ce | 58 | |
| 140.9077 | Praseodymium | Pr | 59 | |
| 144.24 | Neodymium | Nd | 60 | |
| 145 | Promethium | Pm | 61 | |
| 150.36 | Samarium | Sm | 62 | |
| 151.964 | Europium | Eu | 63 | |
| 157.25 | Gadolinium | Gd | 64 | |
| 158.9253 | Terbium | Tb | 65 | |
| 162.5 | Dysprosium | Dy | 66 | |
| 164.9303 | Holmium | Ho | 67 | |
| 167.259 | Erbium | Er | 68 | |
| 168.9342 | Thulium | Tm | 69 | |
| 173.04 | Ytterbium | Yb | 70 | |
| 174.967 | Lutetium | Lu | 71 | |
| 178.49 | Hafnium | Hf | 72 | |
| 180.9479 | Tantalum | Ta | 73 | |
| 183.84 | Tungsten | W | 74 | |
| 186.207 | Rhenium | Re | 75 | |
| 190.23 | Osmium | Os | 76 | |
| 192.217 | Iridium | Ir | 77 | |
| 195.078 | Platinum | Pt | 78 | |
| 196.9665 | Gold | Au | 79 | |
| 200.59 | Mercury | Hg | 80 | |
| 204.3833 | Thallium | Tl | 81 | |
| 207.2 | Lead | Pb | 82 | |
| 208.9804 | Bismuth | Bi | 83 | |
| 209 | Polonium | Po | 84 | |
| 210 | Astatine | At | 85 | |
| 222 | Radon | Rn | 86 | |
| 223 | Francium | Fr | 87 | |
| 226 | Radium | Ra | 88 | |
| 227 | Actinium | Ac | 89 | |
| 231.0359 | Protactinium | Pa | 91 | |
| 232.0381 | Thorium | Th | 90 | |
| 237 | Neptunium | Np | 93 | |
| 238.0289 | Uranium | U | 92 | |
| 243 | Americium | Am | 95 | |
| 244 | Plutonium | Pu | 94 | |
| 247 | Curium | Cm | 96 | |
| 247 | Berkelium | Bk | 97 | |
| 251 | Californium | Cf | 98 | |
| 252 | Einsteinium | Es | 99 | |
| 257 | Fermium | Fm | 100 | |
| 258 | Mendelevium | Md | 101 | |
| 259 | Nobelium | No | 102 | |
| 261 | Rutherfordium | Rf | 104 | |
| 262 | Lawrencium | Lr | 103 | |
| 262 | Dubnium | Db | 105 | |
| 264 | Bohrium | Bh | 107 | |
| 266 | Seaborgium | Sg | 106 | |
| 268 | Meitnerium | Mt | 109 | |
| 272 | Roentgenium | Rg | 111 | |
| 277 | Hassium | Hs | 108 | |
| Darmstadtium | Ds | 110 | ||
| Ununbium | Uub | 112 | ||
| Ununtrium | Uut | 113 | ||
| Ununquadium | Uuq | 114 | ||
| Ununpentium | Uup | 115 | ||
| Ununhexium | Uuh | 116 | ||
| Ununseptium | Uus | 117 | ||
| Ununoctium | Uuo | 118 |
Click here: for a schematic overview of the periodic table of elements in chart form
What Is C Atomic Mass
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In the modern periodic table, the elements are listed in order of increasing atomic number. The atomic number is the number of protons in the nucleus of an atom. The number of protons define the identity of an element (i.e., an element with 6 protons is a carbon atom, no matter how many neutrons may be present). The number of protons determines how many electrons surround the nucleus, and it is the arrangement of these electrons that determines most of the chemical behavior of an element.
In a periodic table arranged in order of increasing atomic number, elements having similar chemical properties naturally line up in the same column (group). For instance, all of the elements in Group 1A are relatively soft metals, react violently with water, and form 1+ charges; all of the elements in Group 8A are unreactive, monatomic gases at room temperature, etc. In other words, there is a periodic repetition of the properties of the chemical elements with increasing mass.
The Atomic Mass Of An Element Is
In the original periodic table published by Dimitri Mendeleev in 1869, the elements were arranged according to increasing atomic mass— at that time, the nucleus had not yet been discovered, and there was no understanding at all of the interior structure of the atom, so atomic mass was the only guide to use. Once the structure of the nucleus was understood, it became clear that it was the atomic number that governed the properties of the elements.