The element with the atomic number 118,
will be
Show Hint
The outermost electronic configuration of an element with atomic number 118 is 7s27p6
- alkali
- noble gas
- lanthanide
- transition element
The Correct Option is B
Approach Solution - 1
The correct option is (b) noble gas
Explanation:
The outermost electronic configuration of an element with atomic number 118 is 7s27p6. Since its electronic configuration in the outermost orbit, ns2np6 resembles inert or noble gases therefore it will be a noble gas element.
The electronic configuration of an element with atomic number 118 will be [Rn]5f146s26p6. The element with the atomic number 118, will be a noble gas.
Alternate Approach
Elements with different atomic numbers have different electronic configurations that enables us to understand the positions of these elements in the periodic table. A periodic table contains elements grouped in different blocks such as s, p, d, and f.
Complete answer:
The atomic number of an element of a chemical element is the number of electrons present in the neutral species.
- Electrons of an atom or molecule distribute themselves in an atomic or molecular orbital.
- This distribution refers to electronic configuration.
- The electronic configuration provides an insight into the chemical behaviour of elements and their position in the periodic table.
Characteristics of noble gases
Noble gases are odourless, non-flammable, colourless, and monoatomic gas with low chemical reactivity.
- All the noble gases conduct electricity and fluorescence which can be needed in many conditions to maintain a constant and safe environment.
- All noble gases are insoluble in water.
- As they have a complete octet which makes them highly stable. So, they hardly react with other elements to form chemical bonds because of their low tendencies to either gain or lose electrons.
- But exceptions are everywhere. Xenon is a noble gas that may form compounds either with fluoride or oxide
Further the important steps for determining electronic configuration we
- Shells: Electronic configuration of an element with atomic number will be [Rn]5f146d167s27p6.
- Subshells: Its electronic configuration in the outermost orbit (ns2np6)
- Notations: This resembles that of inert or noble gases such as Argon [Ne]3s23p6.
Thus, it will be a noble gas element. Therefore, option (B) is the correct option i.e. Noble Gas.
Note: Note that we also analyze and solve the question by considering Radon which is a noble gas, also which has atomic number 86 When 32 electrons are added to it, we get the element with atomic number 118. Since, in the seventh period, a maximum of 32 electrons can be accommodated. Hence, an element with atomic number 118 is a noble gas.
Approach Solution -2
Oganesson is a chemical element with the symbol Og, having the atomic number 118. Element 118 on the Periodic Table of Elements, was previously called ununoctium. It belongs to the family of noble gases.
Top Questions on Modern Periodic Law And The Present Form Of The Periodic Table
- Given below are certain cations. Using inorganic qualitative analysis, arrange them in increasing group number from 0 to VI.
A) Al3+
B) Cu2+
C) Ba2+
D) Co2+
E) Mg2+
Choose the correct answer from the options given below- NEET (UG) - 2024
- Chemistry
- Modern Periodic Law And The Present Form Of The Periodic Table
- Match List I with List II
List-I
(Quantum Number)List-II
(Information provided)(A) mI (I) Shape of orbital (B) ms (II) Size of orbital (C) I (III) Orientation of orbital (D) n (IV) Orientation of spin of electron
Choose the correct answer from the options given below:- NEET (UG) - 2024
- Chemistry
- Modern Periodic Law And The Present Form Of The Periodic Table
- Arrange the following elements in increasing order of electronegativity:
N, O, F, C, Si
Choose the correct answer from the options given below:- NEET (UG) - 2024
- Chemistry
- Modern Periodic Law And The Present Form Of The Periodic Table
- What is the group number of unununnium?
- JEE Main - 2024
- Chemistry
- Modern Periodic Law And The Present Form Of The Periodic Table
- Color of \(Pbl_2\)
- JEE Main - 2024
- Chemistry
- Modern Periodic Law And The Present Form Of The Periodic Table
Questions Asked in NEET exam
- \(^{290}_{82}X\stackrel{\alpha}{\rightarrow}Y\stackrel{e^+}{\rightarrow}Z\stackrel{\beta^-}{\rightarrow}P\stackrel{e^-}{\rightarrow}Q\)
In the nuclear emission stated above, the mass number and atomic number of the product Q respectively, are :- NEET (UG) - 2024
- Nuclear physics
- In an ecosystem if the Net Primary Productivity (NPP) of first trophic level is 100x (kcal m-2)yr-1, what would be the GPP (Gross Primary Productivity) of the third trophic level of the same ecosystem?
- NEET (UG) - 2024
- Ecosystems
- In a plant, black seed color (BB/Bb) is dominant over white seed color (bb). In order to find out the genotype of the black seed plant, with which of the following genotype will you cross it?
- NEET (UG) - 2024
- monohybrid cross
- Given below are two statements:
Statement I: Both [Co(NH3)6]3+ and [CoF6]3- complexes are octahedral but differ in their magnetic behaviour.
Statement II: [Co(NH3)6]3+ is diamagnetic whereas [CoF6]3- is paramagnetic.
In the light of the above statements, choose the correct answer from the options given below:- NEET (UG) - 2024
- Electronic configuration of atoms and ions
- Given below are two statements: one is labelled as Assertion A and the other is labelled as Reason R.
Assertion A : The potential (V) at any axial point, at 2 m distance(r) from the centre of the dipole of dipole moment vector \(\vec{P}\) of magnitude, 4 × 10-6 C m, is ± 9 × 103 V.
(Take \(\frac{1}{4\pi\epsilon_0}=9\times10^9\) SI units)
Reason R : \(V=±\frac{2P}{4\pi \epsilon_0r^2}\), where r is the distance of any axial point, situated at 2 m from the centre of the dipole.
In the light of the above statements, choose the correct answer from the options given below :- NEET (UG) - 2024
- Magnetic Field
Concepts Used:
Modern Periodic Table
Modern Periodic Table is the tabular arrangement of the elements in increasing order of their atomic numbers. It is commonly referred to as the Long Form of the Periodic Table and is based on the modern periodic law and is the tabular arrangement of elements in increasing order of their atomic numbers (Z).
*Numbering system adopted by the International Union of Pure and Applied Chemistry (IUPAC).
- The elements in the same group of the Modern Periodic Table have the same valence electron configuration and thus have similar chemical properties.
- The elements in the same period of the Modern Periodic Table will have an increasing order of valence electrons. Hence, the number of energy sub-levels per energy level increases as the energy level of the atom increases.
The periodic table of elements is as follows:
| Atomic number (Z) | Symbol | Name |
| 1 | H | Hydrogen |
| 2 | He | Helium |
| 3 | Li | Lithium |
| 4 | Be | Beryllium |
| 5 | B | Boron |
| 6 | C | Carbon |
| 7 | N | Nitrogen |
| 8 | O | Oxygen |
| 9 | F | Fluorine |
| 10 | Ne | Neon |
| 11 | Na | Sodium |
| 12 | Mg | Magnesium |
| 13 | Al | Aluminium |
| 14 | Si | Silicon |
| 15 | P | Phosphorus |
| 16 | S | Sulfur |
| 17 | Cl | Chlorine |
| 18 | Ar | Argon |
| 19 | K | Potassium |
| 20 | Ca | Calcium |
| 21 | Sc | Scandium |
| 22 | Ti | Titanium |
| 23 | V | Vanadium |
| 24 | Cr | Chromium |
| 25 | Mn | Manganese |
| 26 | Fe | Iron |
| 27 | Co | Cobalt |
| 28 | Ni | Nickel |
| 29 | Cu | Copper |
| 30 | Zn | Zinc |
| 31 | Ga | Gallium |
| 32 | Ge | Germanium |
| 33 | As | Arsenic |
| 34 | Se | Selenium |
| 35 | Br | Bromine |
| 36 | Kr | Krypton |
| 37 | Rb | Rubidium |
| 38 | Sr | Strontium |
| 39 | Y | Yttrium |
| 40 | Zr | Zirconium |
| 41 | Nb | Niobium |
| 42 | Mo | Molybdenum |
| 43 | Tc | Technetium |
| 44 | Ru | Ruthenium |
| 45 | Rh | Rhodium |
| 46 | Pd | Palladium |
| 47 | Ag | Silver |
| 48 | Cd | Cadmium |
| 49 | In | Indium |
| 50 | Sn | Tin |
| 51 | Sb | Antimony |
| 52 | Te | Tellurium |
| 53 | I | Iodine |
| 54 | Xe | Xenon |
| 55 | Cs | Caesium |
| 56 | Ba | Barium |
| 57 | La | Lanthanum |
| 58 | Ce | Cerium |
| 59 | Pr | Praseodymium |
| 60 | Nd | Neodymium |
| 61 | Pm | Promethium |
| 62 | Sm | Samarium |
| 63 | Eu | Europium |
| 64 | Gd | Gadolinium |
| 65 | Tb | Terbium |
| 66 | Dy | Dysprosium |
| 67 | Ho | Holmium |
| 68 | Er | Erbium |
| 69 | Tm | Thulium |
| 70 | Yb | Ytterbium |
| 71 | Lu | Lutetium |
| 72 | Hf | Hafnium |
| 73 | Ta | Tantalum |
| 74 | W | Tungsten |
| 75 | Re | Rhenium |
| 76 | Os | Osmium |
| 77 | Ir | Iridium |
| 78 | Pt | Platinum |
| 79 | Au | Gold |
| 80 | Hg | Mercury |
| 81 | Tl | Thallium |
| 82 | Pb | Lead |
| 83 | Bi | Bismuth |
| 84 | Po | Polonium |
| 85 | At | Astatine |
| 86 | Rn | Radon |
| 87 | Fr | Francium |
| 88 | Ra | Radium |
| 89 | Ac | Actinium |
| 90 | Th | Thorium |
| 91 | Pa | Protactinium |
| 92 | U | Uranium |
| 93 | Np | Neptunium |
| 94 | Pu | Plutonium |
| 95 | Am | Americium |
| 96 | Cm | Curium |
| 97 | Bk | Berkelium |
| 98 | Cf | Californium |
| 99 | Es | Einsteinium |
| 100 | Fm | Fermium |
| 101 | Md | Mendelevium |
| 102 | No | Nobelium |
| 103 | Lr | Lawrencium |
| 104 | Rf | Rutherfordium |
| 105 | Db | Dubnium |
| 106 | Sg | Seaborgium |
| 107 | Bh | Bohrium |
| 108 | Hs | Hassium |
| 109 | Mt | Meitnerium |
| 110 | Ds | Darmstadtium |
| 111 | Rg | Roentgenium |
| 112 | Cn | Copernicium |
| 113 | Nh | Nihonium |
| 114 | Fl | Flerovium |
| 115 | Mc | Moscovium |
| 116 | Lv | Livermorium |
| 117 | Ts | Tennessine |
| 118 | Og | Oganesson |
Read More: Periodic Classification of Elements