MCQ
The incorrect order of lattice energy is
- A$AlF_3 > MgF_2$
- B$Li_3N > Li_2O$
- C$NaCl > LiF$
- D$TiC > ScN$
✓
Answer
$(c) LE\propto \begin{matrix}
{{q}^{+}}\,+{{q}^{-}} \\
{{r}^{+}}+{{r}^{-}} \\
\end{matrix}$
{{q}^{+}}\,+{{q}^{-}} \\
{{r}^{+}}+{{r}^{-}} \\
\end{matrix}$
$(a)\, AlF_3 > MgF_2$ [Charge on cation]
$(b)\, Li_3N > Li_2O$ [Charge on anion]
$(c)\, NaCl > LiF$ [Size of cation and anion]
$(d)\, TiC > ScN$ [Charge on cation and anion]
Need a full question paper?
Generate a complete, print-ready paper with questions like this in minutes — across 16+ boards, with answer keys.
Explore more
Similar questions
Which of the following compounds which is an optically active compound
Mole fraction of $O_2$ in $O_2$ and $O_3$ mixture is $0.25$. Hence percentage concentration $\left( {\frac{w}{W}\% } \right)$ of $O_2$ in mixture is
→Which of the following structures correspond to the product expected, when excess of $C_6H_6$ reacts with $CH_2Cl_2$ in presence of anhydrous $AlCl_3$ :
→For a cell reaction involving a two-electron change, the standard emf of the cell is found to be $0.295\,V $ at ${25\,^o}C$. The equilibrium constant of the reaction at ${25\,^o}C$ will be
→Chlorobenzne reacts with trichloro acetaldehyde in the presence of $H_2SO_4$.
→$2$ $[image]$ + $\begin{array}{*{20}{c}}
{O\,\,\,\,\,\,} \\
{||\,\,\,\,\,\,} \\
{H - C - CC{l_3}}
\end{array}$ $\xrightarrow{{{H_2}S{O_4}}}$
The major product formed is
The major product obtained on the monobromination (with $Br_2/FeBr_3$) of the following compound $A$ is
→The mass of ions deposited during a given interval of time in the process of electrolysis depends on
The number of complexes from the following with no electrons in the $t _2$ orbital is ________.
$TiCl _4,\left[ MnO _4\right]^{-},\left[ FeO _4\right]^{2-},\left[ FeCl _4\right]^{-},\left[ CoCl _4\right]^{2-}$
→$TiCl _4,\left[ MnO _4\right]^{-},\left[ FeO _4\right]^{2-},\left[ FeCl _4\right]^{-},\left[ CoCl _4\right]^{2-}$
An electron has a spin quantum number $+1/2$ and magnetic quantum number $-1.$ It cannot be present in :
→Work done during isothermal expansion of one mole of $1$ mole of an ideal gas from $10$ $atm$ to $1$ atm at $300 \,K$ is.......$cal$ (Gas constant $= 2$ )
→