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Given:
$straight N subscript 2 left parenthesis straight g right parenthesis space plus space 3 straight H subscript 2 left parenthesis straight g right parenthesis space rightwards arrow space space 2 NH subscript 3 left parenthesis straight g right parenthesis semicolon space space space space space space space space space space space space space space space space space space increment subscript straight r straight H to the power of 0 space equals space minus 92.4 space kJ space mol to the power of negative 1 end exponent$
What is the standard enthalpy of formation of NH₃ gas?

191 Views

192.

Calculate the heat of reaction
$CH subscript 4 left parenthesis straight g right parenthesis space plus space 4 Cl subscript 2 left parenthesis straight g right parenthesis space rightwards arrow space space space space CCl subscript 4 left parenthesis straight g right parenthesis space plus space 4 HCl left parenthesis straight g right parenthesis$ if the heats of formation of $CH subscript 4 left parenthesis straight g right parenthesis comma space Cl subscript 2 left parenthesis straight g right parenthesis comma space CCl subscript 4 left parenthesis straight g right parenthesis space and space HCl left parenthesis straight g right parenthesis space are comma space space space minus 74.9 comma space space 0.0 comma space space minus 139.0 space and space minus 92.3 space kJ space mol to the power of negative 1 end exponent$ respectively.

132 Views

193.

Calculate the enthalpy change for the reaction:

$CO subscript 2 left parenthesis straight g right parenthesis space plus space straight H subscript 2 left parenthesis straight g right parenthesis space rightwards arrow space space CO left parenthesis straight g right parenthesis space plus space straight H subscript 2 straight O left parenthesis straight g right parenthesis given space that space increment straight H subscript straight f superscript degree space for space CO subscript 2 left parenthesis straight g right parenthesis comma space CO left parenthesis straight g right parenthesis space and space straight H subscript 2 straight O left parenthesis straight g right parenthesis space are space minus 395.5 comma space minus 113.3 space and space minus 241.8 space kJ space mol to the power of negative 1 end exponent respectively.$

151 Views

194.

Calculate the enthalpy change of reaction:
$4 NH subscript 3 left parenthesis straight g right parenthesis space plus space 3 straight O subscript 2 left parenthesis straight g right parenthesis space space rightwards arrow space space space 6 straight H subscript 2 straight O left parenthesis straight l right parenthesis space plus 2 straight N subscript 2 left parenthesis straight g right parenthesis$ at 298K, given that the enthalpies of formation at 298 K for $NH subscript 3 left parenthesis straight g right parenthesis space and space straight H subscript 2 straight O left parenthesis straight l right parenthesis space are space comma minus 46.0 space and space minus 286.0 space kJ space mol to the power of negative 1 end exponent space respectively. space$

128 Views

195.

Enthalpies of formation of CO(g), CO₂(g), N₂O(g) and N₂O₄ (g) are -110, -393, 81 and 9.7 kJ mol-1. Find the value of $space increment subscript straight r straight H to the power of 0$ for the reaction:
N₂O₄ (g) + 3CO(g) $space rightwards arrow$ N₂O(g) + 3CO₂(g)

219 Views

Long Answer Type

196.

The combustion of one mole of benzene takes place at 298K and 1 atm. After combustion, CO₂(g) and H₂O(l) are produced and 3267.0 kJ of heat is liberated. Calculate the standard enthalpy of formation of ∆_fH° benzene, given that standard enthalpy of formation of CO₂(g) and H₂O(l) are –393.5 kJ mol^–1 and –285.83 kJ mol^–1respectively.

616 Views

Short Answer Type

197.

Define enthalpy of neutralization.

191 Views

Long Answer Type

198.
Explain why enthalpy of neutralization of a strong acid and strong base remains the same and the value changes if one of them is weak.

Enthalpy of neutralisation for a strong acid and a strong base is always constant: This is because in dilute solution all strong acids and strong bases are completely ionised. The neutralisation of a strong acid and strong base simply involves the combination of H⁺ions (from acid) and OH^– ions (from base) to form unionised water molecules with the evolution of 57.1 kJ heat.

Since the same reaction takes place during neutralisation of all strong acids and strong bases, the value of enthalpy of neutralisation is constant.
The neutralisation of HCl and NaOH can be represented as:

Cancelling the common ions,

Enthalpy of neutralisation if either acid or base is weak : If one of the acid or bases is weak, then its ionisation is not complete in solution. Therefore, a part of the energy liberated is utilised for the ionisation of a weak acid (or base). Consequently, the value of enthalpy of neutralisation of the weak acid-strong base or strong acid-weak base is numerically less than 57.1 kJ. For example, neutralisation of acetic acid and sodium hydroxide can be represented as:

Thus, enthalpy of neutralisation of acetic acid and sodium hydroxide is –55.2 kJ.

Similarly, in the neutralisation of NH₄OH and HCl, 5.6 kJ of heat is used up for the dissociation of weak base i.e. NH₄OH. Hence enthalpy of neutralisation, in this case, is –57.1 + 5.6 = –51.5 kJ.