The normal electron configuration of zinc is [Ar] 3d10 4s2, with 2 4s orbital electrons and 10 3d orbital electrons. By ionizing Zn and removing two electrons, the outer most electrons, the ones with the higher quantum number, are removed first, thus the two 4s orbital electrons are removed resulting in: [Ar] 3d10.
The Lewis dot diagram for Platinum is a diagram showing bonds & electrons of the Platinum atom within a molecule. Nobody will be able to draw you a diagram here, as this is a text-only answer board. Use Google Image Search if you want to actually see the Lewis diagram for Pt.
Elements in the same family of the periodic table have the same number of valence electrons. For light elements this amounts to the same electron configuration, but for heavier elements this is not necessarily the case, e.g. Ni: [Ar]4d8 5s2 ; Pd: [Kr] 5d10 ; Pt: [Xe] 6d9 7s1 .However the whole underlying reason for the periodic law involves the number of valence electrons, and this is expressed in the periodic table.
1 qt = 2 pt, so 2 qt * ( 2 pt/qt) = 4 pt
Platinum is a chemical element with the chemical symbol Pt and an atomic number of 78.The periodic symbol of Platinum is Pt.
Is not pt an abbreviation for pint? So the answer would be 15.
The abbreviated electron configuration for Pt is [Xe] 6s1 4f14 5d9. also, the configuration for Pt2+ ion is [Xe] 4f14 5d8
Rhodium (Rh) forms a 3 plus ion that has the electron configuration Kr4d6. Rhodium has oxidation states of 2,3 and 4, so it can loan out 2, 3 or 4 electrons depending on the circumstances of a chemical reaction.
They are not! It is a prevalent myth that the elements are organized so that elements with the same configuration are organized into the same group, but all that really matters is the number of valence electrons, and that much is guaranteed by the arrangement in order of atomic number.So we have for example in group 10, Ni with configuration [Ar] 3d8 4s2 , Pd with configuration [Kr] 4d10 , and Pt with configuration [Xe] 4f14 5d9 6s1.Group 4 is characterized (supposedly) by the electron configuration d2 s2 but thorium which has this configuration is not placed in this group but in the actinides.
The Lewis dot diagram for Platinum is a diagram showing bonds & electrons of the Platinum atom within a molecule. Nobody will be able to draw you a diagram here, as this is a text-only answer board. Use Google Image Search if you want to actually see the Lewis diagram for Pt.
When 195Au undergoes electron capture, a proton in the nucleus is converted into a neutron. This results in the production of 195Pt as the daughter nucleus.
Elements in the same family of the periodic table have the same number of valence electrons. For light elements this amounts to the same electron configuration, but for heavier elements this is not necessarily the case, e.g. Ni: [Ar]4d8 5s2 ; Pd: [Kr] 5d10 ; Pt: [Xe] 6d9 7s1 .However the whole underlying reason for the periodic law involves the number of valence electrons, and this is expressed in the periodic table.
Gaspar Stephen Mhinzi has written: 'Three-centre, two-electron interactions in Pt (2) Diphosphine complexes'
2Added explanation:In the outer orbitals of Pt (Period VI, 5d-blocktransition elements, after the 4f-block-lanthanides) there are two unpaired electrons:the first is the odd one in 4f17 (or maybe by exchange with 5d10>9)and the other one is the odd one in 6s1
pt is abbrviation physical therapy
The chemical symbol for gold is Au, silver is Ag, and platinum is Pt.
4
Its PT lower case...pt or Pt means patient