For the following reactions at constant pressure, predict if Δ H > Δ E , Δ H < Δ E , or Δ H = Δ E . a . 2HF( g ) → H 2 (g) + F 2 ( g ) b . N 2 (g) + 3H 2 (g) → 2NH 3 (g) c . 4NH 3 (g) + 5O 2 (g) → 4NO(g) + 6H 2 O(g)
For the following reactions at constant pressure, predict if Δ H > Δ E , Δ H < Δ E , or Δ H = Δ E . a . 2HF( g ) → H 2 (g) + F 2 ( g ) b . N 2 (g) + 3H 2 (g) → 2NH 3 (g) c . 4NH 3 (g) + 5O 2 (g) → 4NO(g) + 6H 2 O(g)
For the following reactions at constant pressure, predict if ΔH > ΔE, ΔH < ΔE, or ΔH = ΔE.
a. 2HF(g) → H2(g) + F2(g)
b. N2(g) + 3H2(g) → 2NH3(g)
c. 4NH3(g) + 5O2(g) → 4NO(g) + 6H2O(g)
(a)
Expert Solution
Interpretation Introduction
Interpretation:
For the given set of reactions it should be predicted that which is greater either
ΔE or ΔH.
Concept Introduction:
Enthalpy change: It is defined as the amount of heat released or absorbed by the chemical reaction at constant pressure conditions.
ΔH = ΣnPΣHf(P)∘−ΣnRΣHf(R)∘.
Considering the following equation we can identify whether
ΔE or ΔH is greater for the given reaction.
ΔH = ΔE+ΔngRTwhere, Δng= number of gaseous products - number of gaseous reactants.ΔH=Enthaply changeΔE=Energy changeR=Gas constantT=Temperature
Enthalpy change of combustion: It is the heat energy change involved when one mole of substance gets burned in pressure of oxygen under standard conditions.
Standard enthalpy of formation: It is the heat required when one mole of substance formed from its pure elements in standard state.
Hess law: It states that the total enthalpy of the reaction is equal to the sum of the enthalpy change for individual steps involved in the reaction.
To predict: Whether
ΔH or
ΔE greater for the given set of reactions.
Answer to Problem 54E
For the given reaction
ΔH = ΔE.
Explanation of Solution
Analysing the given reaction shows that there are two gaseous reactants that gives rise to 2 gaseous products therefore,
Δng is calculated as follows,
Δng= number of gaseous products - number of gaseous reactants=2-2=0
For the given reaction
Δng is 0 hence using the given equation
ΔH = ΔE+ΔngRT we found that
ΔH = ΔE.
(b)
Expert Solution
Interpretation Introduction
Interpretation:
For the given set of reactions it should be predicted that which is greater either
ΔE or ΔH.
Concept Introduction:
Enthalpy change: It is defined as the amount of heat released or absorbed by the chemical reaction at constant pressure conditions.
ΔH = ΣnPΣHf(P)∘−ΣnRΣHf(R)∘.
Considering the following equation we can identify whether
ΔE or ΔH is greater for the given reaction.
ΔH = ΔE+ΔngRTwhere, Δng= number of gaseous products - number of gaseous reactants.ΔH=Enthaply changeΔE=Energy changeR=Gas constantT=Temperature
Enthalpy change of combustion: It is the heat energy change involved when one mole of substance gets burned in pressure of oxygen under standard conditions.
Standard enthalpy of formation: It is the heat required when one mole of substance formed from its pure elements in standard state.
Hess law: It states that the total enthalpy of the reaction is equal to the sum of the enthalpy change for individual steps involved in the reaction.
To predict: Whether
ΔH or
ΔE greater for the given set of reactions.
Answer to Problem 54E
For the given reaction
ΔH < ΔE.
Explanation of Solution
Analysing the given reaction shows that there are 4 gaseous reactants that gives rise to 2 gaseous products therefore,
Δng is calculated as follows,
Δng= number of gaseous products - number of gaseous reactants=2-4=−2
For the given reaction
Δng is -2 hence using the given equation
ΔH = ΔE+ΔngRT we found that
ΔH < ΔE.
(c)
Expert Solution
Interpretation Introduction
Interpretation:
For the given set of reactions it should be predicted that which is greater either
ΔE or ΔH.
Concept Introduction:
Enthalpy change: It is defined as the amount of heat released or absorbed by the chemical reaction at constant pressure conditions.
ΔH = ΣnPΣHf(P)∘−ΣnRΣHf(R)∘.
Considering the following equation we can identify whether
ΔE or ΔH is greater for the given reaction.
ΔH = ΔE+ΔngRTwhere, Δng= number of gaseous products - number of gaseous reactants.ΔH=Enthaply changeΔE=Energy changeR=Gas constantT=Temperature
Enthalpy change of combustion: It is the heat energy change involved when one mole of substance gets burned in pressure of oxygen under standard conditions.
Standard enthalpy of formation: It is the heat required when one mole of substance formed from its pure elements in standard state.
Hess law: It states that the total enthalpy of the reaction is equal to the sum of the enthalpy change for individual steps involved in the reaction.
To predict: Whether
ΔH or
ΔE greater for the given set of reactions.
Answer to Problem 54E
For the given reaction
ΔH >ΔE.
Explanation of Solution
Analysing the given reaction shows that there are 9 gaseous reactants that gives rise to 10 gaseous products therefore,
Δng is calculated as follows,
Δng= number of gaseous products - number of gaseous reactants=10-9=1
For the given reaction
Δng is -2 hence using the given equation
ΔH = ΔE+ΔngRT we found that
ΔH >ΔE.
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