13.4.2 Conditions for Spontaneity

Cards (45)

What does Gibbs Free Energy predict about a process under constant pressure and temperature conditions?
Spontaneity
The equation for Gibbs Free Energy is G = H - TS
A negative $ΔG$ indicates a spontaneous process.
What are the three parameters related to Gibbs Free Energy in the equation?
Enthalpy, entropy, temperature
If $ΔH$ is negative and $ΔS$ is positive, the reaction is always spontaneous
Match the conditions with their effect on spontaneity:
$ΔH < 0$ and ΔS < 0</latex> ↔️ Spontaneous at low temperatures
$ΔH > 0$ and $ΔS > 0$ ↔️ Spontaneous at high temperatures
$ΔH > 0$ and $ΔS < 0$ ↔️ Non-spontaneous at all temperatures
What does a negative $ΔG$ value indicate about a process? 
Spontaneity
A spontaneous reaction occurs without continuous external input of energy
If $ΔG$ is equal to zero, the reaction is at equilibrium.
Which three parameters influence the spontaneity of a reaction?
Enthalpy, entropy, temperature
Arrange the following conditions based on their effect on spontaneity:
1️⃣ $ΔH < 0$ and $ΔS > 0$
2️⃣ $ΔH < 0$ and $ΔS < 0$
3️⃣ $ΔH > 0$ and $ΔS > 0$
4️⃣ $ΔH > 0$ and $ΔS < 0$
A reaction is spontaneous if $ΔG > 0$ . 
False
What is the equation for Gibbs Free Energy (G)?
$G =$ $H - TS$
A negative $ΔG$ indicates a spontaneous process
If $ΔH$ is negative and $ΔS$ is positive, the reaction is spontaneous at all temperatures.
Under what temperature conditions is a reaction with $ΔH < 0$ and $ΔS < 0$ spontaneous? 
Low temperatures
If $ΔH$ is positive and $ΔS$ is negative, the reaction is always non-spontaneous
Match the signs of $ΔH$ and $ΔS$ with their effect on overall spontaneity: 
$ΔH < 0$ , $ΔS > 0$ ↔️ Always Spontaneous
$ΔH < 0$ , $ΔS < 0$ ↔️ Spontaneous at low temperatures
$ΔH > 0$ , $ΔS > 0$ ↔️ Spontaneous at high temperatures
$ΔH > 0$ , $ΔS < 0$ ↔️ Always Non-spontaneous
Spontaneity refers to a reaction proceeding without external energy input once initiated.
What is the modified Gibbs Free Energy equation for reactions with enthalpy and entropy changes?
$ΔG =$ $ΔH - TΔS$
A $ΔG$ less than zero indicates a spontaneous reaction
Spontaneity is determined by the Gibbs Free Energy change at constant pressure and temperature.
For the reaction $H₂(g) +$ $O₂(g) → 2H₂O(l)$ , what is the value of $ΔG$ at 298 K if $ΔH =$ $- 572$ kJ and $ΔS =$ $- 326$ J/K? 
$- 474.7$ kJ
A reaction is spontaneous at all temperatures if $ΔH$ is negative and $ΔS$ is positive
Which reaction is spontaneous at low temperatures because ΔH</latex> is negative and $ΔS$ is negative? 
$N₂(g) +$ $3H₂(g) → 2NH₃(g)$
Gibbs Free Energy is used to determine the spontaneity of a process under constant pressure and temperature.
A negative $ΔG$ indicates a spontaneous process
Summarize the conditions for overall spontaneity based on the signs of $ΔH$ and $ΔS$ : 
1️⃣ $ΔH < 0$ , $ΔS > 0$ : Always Spontaneous
2️⃣ $ΔH < 0$ , $ΔS < 0$ : Spontaneous at low temperatures
3️⃣ $ΔH > 0$ , $ΔS > 0$ : Spontaneous at high temperatures
4️⃣ $ΔH > 0$ , $ΔS < 0$ : Always Non-spontaneous
The spontaneity of a reaction depends on the interplay between $ΔH$ and $ΔS$ as defined by the Gibbs Free Energy equation.
What is spontaneity in chemical reactions defined as?
Proceeding without external energy input
The Gibbs Free Energy equation is ΔG
A negative ΔG indicates a spontaneous reaction.
Under what conditions is a reaction always spontaneous?
Negative ΔH and positive ΔS
Spontaneity depends on the interplay between enthalpy change and entropy change, combined through the Gibbs Free Energy equation
What does a positive ΔG indicate?
Non-spontaneous reaction
A reaction is spontaneous if ΔG < 0.
For the reaction $H₂(g) +$ $O₂(g) → 2H₂O(l)$ , ΔH is -572 kJ.
Calculate the ΔG for the reaction $H₂(g) +$ $O₂(g) → 2H₂O(l)$ at 298 K given ΔH = -572 kJ and ΔS = -326 J/K. 
-474.7 kJ
A negative ΔG always indicates a spontaneous reaction regardless of temperature.
False
What combination of ΔH and ΔS results in spontaneity at all temperatures?
Negative ΔH and positive ΔS