Download App

STD 11 - 3. Classification of elements and periodicity in properties — NEET STD 11 Science — Question

Gujarat BoardEnglish MediumSTD 11 ScienceNEETSTD 11 - 3. Classification of elements and periodicity in properties4 Marks
MCQ
Which of these statements is not true
  • $NO^+$ is isoelectronic with $O_2$
  • B
    $B$ is always covalent in its compounds
  • C
    In aqueous solution, the $Ti^+$ ion is much more stable than $Ti (III)$
  • D
    $LiAlH_4$ is a versatile reducing agent in organic synthesis

Answer

Correct option: A.
$NO^+$ is isoelectronic with $O_2$
a
$(a)\, NO^+\, =7+8-1\,=14\,e^-$. $O_2\, = 16\,e^-$. i.e. not isoelectronic
$(b)$ Boron forms only covalent compounds. This is due to its extremely high ionisation energy.
$(c)$ Compounds of $Ti^+$ are much more stable than those of $Ti^{3+}$.
$(d)\, LiAlH_4$ is a versatile reducing agent in organic synthesis

Need a full question paper?

Generate a complete, print-ready paper with questions like this in minutes — across 16+ boards, with answer keys.

Start Generating Free

Explore more

NEET STD 11 Science question papersGujarat Board STD 11 Science question papersGujarat Board question paper generator

Similar questions

In which of the following, tendency towards formation of coloured ions is maximum
The most stable resonating structure of $CH_3 -O -CH = CH_2$ is
For a dilute solution containing $2.5 \ g$ of a non-volatile non-electrolyte solute in $100 \ g$ of water, the elevation in boiling point at $1 \ atm$ pressure is $2^{\circ} C$. Assuming concentration of solute is much lower than the concentration of solvent, the vapour pressure ( $mm$ of $Hg$ ) of the solution is (take $K _{ b }=0.76 \ K\ kg \ mol ^{-1}$ )
Which of the following is the Fischer projection of $L-$ threonine (also known as  $(2S, 3R) \, 2-$ amino $-3-$ hydroxybutanoic acid) ?
In an experiment it showed that $10\ mL$ of $ 0.05\ M$ solution of chloride required $10\ mL$ of $0.1\ M$ solution of $AgNO_3,$ which of the following will be the formula of the chloride ($X$ stands for the symbol of the element other than chlorine)
Given 

$(A)$ $2 CO ( g )+ O _2( g ) \rightarrow 2 CO _2( g ) \quad \Delta H _1^\theta=- x\,kJ\,mol { }^{-1}$

$(B)$ $C$ (graphite) $+ O _2$ (g) $\rightarrow CO _2$ (g) $\Delta H _2^\theta=- y\,kJ\,mol -1$ The $\Delta H ^\theta$ for the reaction $......$.$C ($ graphite $)+\frac{1}{2} O _2( g ) \rightarrow CO ( g )$ is

$NH_2^-, NH_3$ and $NH_4^+$ do not show similarity in the following
The structure of the compound that gives a tribromo derivative on treatment with bromine water is
For the equilibrium $A\left( g \right) \rightleftharpoons B\left( g \right)$, $\Delta H$ is $-40\, k\,J/mol$. If the ratio of the activation energies of the forward $(E_f)$ and reverse $(E_b)$ reactions is $\frac{2}{3}$ then
$CaC{O_{3(s)}}$ $\rightleftharpoons$ $Ca{O_{(s)}} + C{O_{2(g)}}$ which of the following expression is correct