Which noble gas is most soluble in water - Vidyadip

MCQ

Which noble gas is most soluble in water

A
$He$
B
$Ar$
C
$Ne$
✓
$Xe$

✓

Answer

Correct option: D.

$Xe$

d
(d) $Xe$ is formed following compounds.

$Xe{F_2}$, $Xe{F_4}$, $Xe{F_6}$.

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

More "M.C.Q (1 Marks)" from p -Block elements - ll→p -Block elements - ll — all question types→Chemistry STD 12 Science question papers→CBSE Board STD 12 Science question papers→CBSE Board question paper generator→

Similar questions

Glycol on treatment with $PI_3$ mainly gives -

Rate of reaction toward Beckmann rearrangement

when $\underset{(i)}{\mathop{\gamma =C{{H}_{3}}CO_{2}^{-},}}\,\,\,\,\,\,\underset{(ii)}{\mathop{Cl-C{{H}_{2}}-CO_{2}^{-},}}\,\,\,\,\,\,\,\underset{(iii)}{\mathop{Ph-SO_{3}^{-}}}\,$

$12\, g$ of a nonvolatile solute dissolved in $108\, g$ of water produces the relative lowering of vapour pressure of $0.1$. The molecular mass of the solute is

When glycerine is added to a litre of water which of the following behaviour is observed

Which of the following statements are true about semiconductors?

Silicon doped with electron rich impurity is a $p-$type semiconductor.
Silicon doped with an electron rich impurity is an $n-$type semiconductor.
Delocalised electrons increase the conductivity of doped silicon.
An electron vacancy increases the conductivity of $n-$type semiconductor.

${{C}_{6}}{{H}_{5}}-CH=CHCHO\xrightarrow{X}{{C}_{6}}{{H}_{5}}CH=CHC{{H}_{2}}OH$. In the above sequence $ X$ can be

An ester $(A)$ with molecular fomula, $C_9H_{10}O_2$ was treated with excess of $CH_3MgBr$ and the complex so formed was treated with $H_2SO_4$ to give an olefin $(B)$. Ozonolysis of $(B)$ gave a ketone with molecular formula $C_8H_8O$ which shows positive iodoform test. The structure of $(A)$ is

Which of the following reaction is not correctly represented

Which of the following does not show optical isomerism?

($en =$ ethylenediamine)

A flask is filled with equal moles of $A$ and $B$. The half lives of $A$ and $B$ are $100\, s$ and $50 \,s$ respectively and are independent of the initial concentration. The time required for the concentration of $A$ to be four times that of $B$ is $....\,s.$

(Given : $\ln 2=0.693$ )