Ionisation energy in group 1A varies in the decreasing order as

Previous Year Papers

Download Solved Question Papers Free for Offline Practice and view Solutions Online.

Test Series

Take Zigya Full and Sectional Test Series. Time it out for real assessment and get your results instantly.

Test Yourself

Practice and master your preparation for a specific topic or chapter. Check you scores at the end of the test.
Advertisement

 Multiple Choice QuestionsMultiple Choice Questions

191.

The radius of H-atom in its ground state is 0.58Å .The radius of, 3Li2+ ithe similar state is

  • 0.1777 Å

  • 0.706 Å

  • 1.06 Å

  • 0.058 Å


192.

The correct order of ionization energies is

  • Cu > Ag > Au

  • Cu > Au > Ag

  • Au > Cu > Ag

  • Ag > Au > Cu


193.

The set representing the correct order of ionic radius is

  • Li+ > Be2+ > Na+ > Mg2+

  • Na+ > Li+ > Mg2+ > Be2+

  • Li+ > Na+ > Mg2+ > Be2+

  • Mg2+ > Be2+ > Li+ > Na+


194.

Which of the following is the correct decreasing order of oxidation state of nitrogen?

  • HNO3 > NO > NH4Cl > N2

  • HNO3 > NO > N2 > NH4Cl

  • HNO3 > NH4Cl > NO > N2

  • NO > HNO3 > NH4Cl > N2


Advertisement
195.

Which of the following has highest electron affinity?

  • N

  • O

  • F

  • Cl


196.

The one electron species having ionisation energy of 54.4 eV is

  • He+

  • H

  • Be2+

  • Be3+


Advertisement

197.

Ionisation energy in group 1A varies in the decreasing order as

  • Li > Na > K > Cs

  • Na > Li > K > Cs

  • Li > Cs > K  Na

  • K > Cs > Na > Li


A.

Li > Na > K > Cs

Atoric size increases as we move from top to down in a group, therefore, the amount of energy required for ejection of an electron from atom decreases, i.e. ionsaton energy decreases. Hence, the correct order of IE1 is Li > Na > K > Cs.


Advertisement
198.

An example of a non-stoichiometric compound is

  • PbO

  • NiO2

  • Al2O3

  • Fe3O4


Advertisement
199.

The equation used to represents the electron gain enthalpy is

  • X(g) + e- → X-(g)

  • X(s) + e- → X-(g)

  • X(g) → X+(g) + e-

  • X(s) → X+(g) + e-


200.

An element in +2 oxidation state has 24 electrons. The atomic number of the element and the number of unpaired electrons in it respectively are

  • 24 and 4

  • 26 and 4

  • 24 and 2

  • 26 and 5


Advertisement