Download App

5. Thermodynamics and thermochemistry — Chemistry STD 11 Science — Question

Rajasthan BoardEnglish MediumSTD 11 ScienceChemistry5. Thermodynamics and thermochemistry1 Mark
MCQ
Which of the following relation is incorrect
  • $Kp\, = \,{\left( {\frac{e}{{RT}}} \right)^{\Delta {G^o}}}$
  • B
    $Kp\, = \,{e^{ - \frac{{\Delta {G^o}}}{{RT}}}}$
  • C
    $\Delta {G^o} = \, - \,2.303\,RT\,\log \,Kp$
  • D
    $\log \,{K_{eq}} = \frac{{ - \,\Delta {G^o}}}{{2.303\,RT}}$

Answer

Correct option: A.
$Kp\, = \,{\left( {\frac{e}{{RT}}} \right)^{\Delta {G^o}}}$
a

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 5. Thermodynamics and thermochemistry5. Thermodynamics and thermochemistry — all question typesChemistry STD 11 Science question papersRajasthan Board STD 11 Science question papersRajasthan Board question paper generator

Similar questions

Given $N _2(g)+3 H _2(g) \rightarrow NH _3(g) ; \Delta_r H ^{\circ}=-92.4 kJ mol ^{-1}$. What is the standard enthalpy of formation of $NH _3$ gas?
An anion $A ^{3-}$ has 18 electrons. Write the atomic number of A.
Assign true $(T)$ and false $(F)$ for following statements and select correct option for your answer

$(a)\, IP$ of $O_{(g)}$ is less than $IP$ of $O_{(g)}^ - $
$(b)\, IP$ of $Ne_{(g)}$ is greater than $IP$ of $Ne_{(g)}^ + $
$(c)\, EA$ of $O_{(g)}^ + $ is greater than $EA$ of $O_{(g)}$
$(d)\, IP$ of $N_{(g)}$ is greater than $IP$ of $N_{(g)}^ + $

Beryllium shows diagonal relationship with
Which of the following structure $(s)$ is/are non -planar?
$0.01$ moles of a weak acid $HA \left( K _{ a }=2.0 \times 10^{-6}\right)$ is dissolved in $1.0\, L$ of $0.1\, M\, HCl$ solution. The degree of dissociation of $HA$ is ............. $\times 10^{-5}$

(Round off to the Nearest Integer).

[Neglect volume change on adding $HA$. Assume degree of dissociation $<< 1]$

How are the following compounds related ?
Reaction, ${H_2}(g) + {I_2}(g) \to 2HI(g)$ $\Delta H = - 12.40\,kcal$. According to this, the heat of formation of $ HI $ will be......$kcal$
$6.023 \times 10^{22}$ molecules are present in $10 \,g$ of a substance $'x'.$ The molarity of a solution containing $5\, g$ of substance ${ }^{\prime} x ^{\prime}$ in $2\, L$ solution is.......... $\times 10^{-3}$
What will be $\Delta S$ for reaction: $2A + 3B \to 4C + 5D$

$\Delta S_A^o = 100\frac{J}{{mol \times k}}$   $\Delta S_C^o = 200\frac{J}{{mol \times k}}$

$\Delta S_B^o = 120\frac{J}{{mol \times k}}$   $\Delta S_D^o = 150\frac{J}{{mol \times k}}$