21I2( s)+21Cl2⟶ICl(g)ΔH=[21ΔHb2(s)→k2(g)+21μ1−1+21μcl−cl]−[μ1−a]=(21×62.76+21×151.0+21×242.3)−(211.3)=228.03−211.3ΔH=16.73
The enthalpy changes for the following processes are listed below: Cl2( g)=2Cl(g),I2( g)=2I(g),ICl(g)=I(g)+Cl(g),I2( s)=I2( g),242.3 kJ mol−1151.0 kJ mol−1211.3 kJ mol−162.76 kJ mol−1 Given that the standard states for iodine and chlorine are I2( s) and Cl2( g), the standard enthalpy of formation for ICl(g) is
Held on 30 Apr 2006 · Verified 6 Jul 2026.
−14.6 kJ mol−1
−16.8 kJ mol−1
+16.8 kJ mol−1
+244.8 kJ mol−1
Sign in to track your attempts and accuracy.
Sign in to keep a private note on this question. Nothing you write is ever public.
The ratio of mass percentage (w/w) of C : H in a hydrocarbon is $12 : 1$. It has two carbon atoms. The weight (in g) of $CO_2(g)$ formed when $3.38$ g of this hydrocarbon is completely burnt in oxygen is : (Given : Molar mass in g mol$^{-1}$ C : 12, H : 1, O : 16)
The correct order of total number of atoms present in<br>(A) $2$ moles of cyclohexane<br>(B) $684$ g of sucrose<br>(C) $90.8$ L of dihydrogen at STP<br>is:
An oxide of iron contains $69.9\%$ iron, its empirical formula, is: (Given: Molar mass of Fe and O are $56$ and $16$ g mol$^{-1}$ respectively.)
What volume of hydrogen gas at STP would be liberated by action of $50\text{ mL}$ of $H_2SO_4$ of $50\%$ purity (density $= 1.3\text{ g mL}^{-1}$) on $20\text{ g}$ of zinc ?<br>Given : Molar mass of H, O, S, Zn are $1, 16, 32, 65\text{ g mol}^{-1}$ respectively.
For the given reaction:<br>$\mathrm{CaCO}_{3}+2 \mathrm{HCl} \longrightarrow \mathrm{CaCl}_{2}+\mathrm{H}_{2} \mathrm{O}+\mathrm{CO}_{2}$<br>If $90 \mathrm{~g} \mathrm{CaCO}_{3}$ is added to 300 mL of HCl which contains $38.55 \% \mathrm{HCl}$ by mass and has density $1.13 \mathrm{~g} \mathrm{~mL}^{-1}$, then which of the following option is correct ?<br>Given molar mass of $\mathrm{H}, \mathrm{Cl}, \mathrm{Ca}$ and O are 1, 35.5, 40 and $16 \mathrm{~g} \mathrm{~mol}^{-1}$ respectively.
Work through every JEE Main Physical Chemistry PYQ, year by year.