In the atmosphere, small water droplets are suspended in the air, forming an aerosol. N 2 O 5 (g) can form HNO 3 (aq) under these conditions, as shown in reaction 2, represented below. Reaction 1: NO 3 (g) + NO 2 (g) ↔ N 2 O 5 (g) Reaction 2: N 2 O 5 (g) + H 2 O (l) → 2HNO 3 (aq) Which of the following predicts the effect that the formation of will have on the equilibrium shown in reaction 1, and why?

The equilibrium of reaction 1 will shift toward the formation of more product, because N 2 O 5 (g) is removed when it reacts to form HNO 3 (aq) .

The equilibrium of reaction 1 is not affected, because neither H 2 O (l) nor HNO 3 (aq) are gases.

For which of the equilibrium systems represented below will the amount of product(s) at equilibrium increase if the volume of the reaction vessel is increased at a constant temperature?

PCl 5(g) ⇄ PCl 3(g) + Cl 2(g)

2 NO (g) + O 2(g) ⇄ 2 NO 2(g)

For which of the following reaction mixtures at equilibrium would reducing the volume of the container at constant temperature cause the equilibrium to shift toward the products?

SrCO 3(s) ⇄ SrO (s) + CO 2(g)

CO (g) + H 2 O (g) ⇄ CO 2(g) + H 2(g)

HgO (s) + H 2 O ⇄ HgI 4 2– + 2 OH – Consider the equilibrium above. Which of the following changes will increase the concentration of HgI 4 2– ?

Increasing the concentration of OH –

Increasing the mass of HgO present

H 2 gas and N 2 gas were placed in a rigid vessel and allowed to reach equilibrium in the presence of a catalyst according to the following equation. 3 H 2(g) + N 2(g) ⇄ 2 NH 3(g) ΔH o = -92 kJ/mol rxn The diagram above shows how the concentrations of H 2 , N 2 , and NH 3 in this system changed over time. More NH 3 gas is added to the system at time t 2 while the temperature is held constant. Which of the following will most likely occur?

The amount of N 2 will increase.

The value of the equilibrium constant will increase

The value of the equilibrium constant will decrease.

The total pressure in the container will decrease.

The amount of H 2 will decrease.

H 2 gas and N 2 gas were placed in a rigid vessel and allowed to reach equilibrium in the presence of a catalyst according to the following equation. 3 H 2(g) + N 2(g) ⇄ 2 NH 3(g) ΔH o = -92 kJ/mol rxn The diagram above shows how the concentrations of H 2 , N 2 , and NH 3 in this system changed over time. Which of the following was true for the system between time t 1 and time t 2 ?

The rates of the forward and reverse reactions were equal.

The concentration of N 2 decreased.

The temperature of the system decreased.

The number of effective collisions between H 2 and N 2 was zero.

The rate of formation of NH 3 molecules was equal to the rate of disappearance of H 2 molecules.

N 2 (g) + 3 H 2 (g) ↔ 2 NH 3 (g) ΔH < 0 NH 3(g) was synthesized at 200°C in the presence of a powdered Os (s) catalyst, leading to the equilibrium system represented above. Which of the following changes would result in more NH 3(g) in the mixture after equilibrium is reestablished?

Replacing the powdered Os (s) with a solid cube of Os (s) of the same total mass

Increasing the temperature of the system to 250°C at constant pressure

A sample of N 2 O 4 (g) is placed into an evacuated container at 373 K and allowed to undergo the reversible reaction N 2 O 4 (g) ↔ 2 NO 2 (g) . The concentration of each species is measured over time, and the data are used to make the graph shown above. Which of the following identifies when equilibrium is first reached and provides a correct explanation?

At 60 seconds, because [NO 2 ] and [N 2 O 4 ] remain constant, indicating that the forward and reverse reaction rates are equal.

At 14 seconds, because [N 2 O 4 ] is twice [NO 2 ], which implies that the forward and reverse reaction rates are equal.

At 23 seconds, because [NO 2 ] equals [N 2 O 4 ], which shows that equal concentrations are present at equilibrium.

At 40 seconds, because [NO 2 ] is twice [N 2 O 4 ], which matches the stoichiometry of the balanced chemical equation.

The equilibrium system represented by the equation above initially contains equal concentrations of Cr 2 O 7 2− (aq) and CrO 4 2− (aq) . Which of the following statements correctly predicts the result of adding a sample of 6.0 M NaOH (aq) to the system, and provides an explanation?

The mixture will become more yellow because OH − (aq) will shift the equilibrium toward products.

The mixture will become more orange because OH − (aq) will oxidize the Cr in CrO 4 2− (aq) .

The mixture will become more yellow because OH − (aq) will reduce the Cr in Cr 2 O 7 2− (aq) .

The color of the mixture will not change because OH − (aq) does not appear in the equilibrium expression.

A mixture of NO 2(g) and N 2 O 4(g) is placed in a glass tube and allowed to reach equilibrium at 70°C, as represented above. Which of the following best predicts how the partial pressures of the reacting species will be affected if a small amount of Ar (g) is added to the equilibrium mixture at constant volume?

P NO2 will decrease and P N2O4 will increase.

P NO2 will increase and P N2O4 will decrease.

Both P NO2 and P N2O4 will decrease.

A mixture of NO 2(g) and N 2 O 4(g) is placed in a glass tube and allowed to reach equilibrium at 70°C, as represented above. Which of the following statements best helps to explain why the contents of the tube containing the equilibrium mixture turned a lighter color when the tube was placed into an ice bath?

The forward reaction is endothermic.

The forward reaction is exothermic.

The ice bath lowered the activation energy.

The ice bath raised the activation energy.

A sealed rigid vessel contains BaO 2(s) in equilibrium with BaO (s) and O 2(g) as represented by the equation above. Which of the following changes will increase the amount of BaO 2(s) in the vessel?

Removing a small amount of O 2(g)

Removing a small amount of BaO (s)

Which of the following changes alone would cause a decrease in the value of K eq for the reaction represented above?

Decreasing the volume of the reaction vessel

Increasing the volume of the reaction vessel

2 SO 3(g) ⇄ 2 SO 2(g) + O 2(g) After the equilibrium represented above is established, some pure O 2(g) is injected into the reaction vessel at constant temperature. After equilibrium is reestablished, which of the following has a lower value compared to its value at the original equilibrium?

The amount of SO 2(g) in the reaction vessel

The total pressure in the reaction vessel

The amount of SO 3(g) in the reaction vessel

PCl 5(g) ⇄ PCl 3(g) + Cl 2(g) PCl 5(g) decomposes into PCl 3(g) and Cl 2(g) according to the equation above. A pure sample of PCl 5(g) is placed in a rigid, evacuated 1.00 L container. The initial pressure of the PCl 5(g) is 1.00 atm. The temperature is held constant until the PCl 5(g) reaches equilibrium with its decomposition products. The figures above show the initial and equilibrium conditions of the system. As the reaction progresses toward equilibrium, the rate of the forward reaction

decreases to become a constant nonzero rate at equilibrium

increases until it becomes the same as the reverse reaction rate at equilibrium

stays constant before and after equilibrium is reached

decreases to become zero at equilibrium

CaCO 3(s) ⇄ CaO (s) + CO 2(g) ΔH° = 178 kJ/mol rxn The reaction system represented above is at equilibrium. Which of the following will decrease the amount of CaO (s) in the system?

Lowering the temperature of the system

Increasing the volume of the reaction vessel at constant temperature

Removing some CO 2(g) at constant temperature

Removing some CaCO 3(s) at constant temperature

Equilibrium Conceptual

Quiz

•

Chemistry

•

11th - 12th Grade

•

Practice Problem

•

Hard

•

NGSS

HS-PS1-5, HS-PS1-6, HS-PS1-4

Standards-aligned

Brian Bridgewater

Used 10+ times

FREE Resource

Student preview

28 questions

Show all answers

MULTIPLE CHOICE QUESTION

2 mins • 1 pt

X_(g) + Y_(g)↔ XY _(g)
In an experiment, X_(g) and Y_(g) were combined in a rigid container at constant temperature and allowed to react as shown in the equation above. The table provides the data collected during the experiment. Based on the data, which of the following claims is most likely correct?

The reaction was about to reach equilibrium 15 minutes after the reactants were combined because the concentrations of X and XY were almost the same.

The reaction reached equilibrium between 75 minutes and 155 minutes after the reactants were combined because the concentrations of X and XY remained constant.

The reaction did not reach equilibrium because only 86% of the initial concentration of X was consumed.

The reaction did not reach equilibrium because initially there was no XY inside the container.

Tags

NGSS.HS-PS1-5

MULTIPLE CHOICE QUESTION

2 mins • 1 pt

X_(g) + Y_(g) ↔ XY_(g)
The particle diagram above illustrates the changes that take place when X_(g) and Y_(g) are placed inside a rigid container at constant temperature. Which of the following is a characteristic of a system at equilibrium that is best represented by the particle diagram?

The particle diagram shows that initially the reaction proceeds to the right to form products, which is a characteristic of a system at equilibrium.

The particle diagram shows that after 200 s the rate of the reverse reaction is slower than the rate of the forward reaction, which is a characteristic of a system at equilibrium.

The particle diagram shows that after 200 s there are no observable changes in the amounts of reactants and products, which is a characteristic of a system at equilibrium.

The particle diagram shows that between 0 s and 200 s the rates of the forward and reverse reactions are the same, which is a characteristic of a system at equilibrium.

MULTIPLE CHOICE QUESTION

2 mins • 1 pt

CO(g) + 2 H₂(g) ⇄ CH₃OH(g) Δ H < 0
The synthesis of CH₃OH(g) from CO(g) and H₂(g) is represented by the equation above. The value of K_c for the reaction at 483 K is 14.5.

Which of the following explains the effect on the equilibrium constant, K_c, when the temperature of the reaction system is increased to 650 K?

K_c will increase because the activation energy of the forward reaction increases more than that of the reverse reaction.

K_c will increase because there are more reactant molecules than product molecules.

K_c will decrease because the reaction is exothermic.

K_c is constant and will not change.

Tags

NGSS.HS-PS1-5

MULTIPLE CHOICE QUESTION

2 mins • 1 pt

The table above shows data for two reactions carried out in two separate evacuated 1.0-liter rigid containers at constant temperature of 298 K. To each container 0.50 mol of the appropriate reactants was added, and the reaction was allowed to reach equilibrium. Based on this information, which of the following correctly compares the relative concentrations of BrCl and NO present inside their respective containers at equilibrium?

[BrCl]_eq = [NO]_eq because equimolecular mixtures of the reactants were allowed to reach equilibrium at the same constant temperature.

[BrCl]_eq > [NO]_eqbecause Br₂ and Cl₂ are larger molecules that can collide more frequently to form products.

[BrCl]_eq > [NO]_eqbecause the much larger K_eq for reaction 1 means that a much higher concentration of products will be present at equilibrium for reaction 1 compared with reaction 2.

[BrCl]_eq < [NO]_eqbecause the much larger K_eq for reaction 1 means that hardly any products will be present at equilibrium compared with reaction 2.

Tags

NGSS.HS-PS1-5

NGSS.HS-PS1-7

MULTIPLE CHOICE QUESTION

2 mins • 1 pt

At night, an equilibrium reaction between two different nitrogen compounds generates N₂O₅ in the atmosphere, as represented below.
Reaction 1: NO_3(g)+ NO_2(g)⇄ N₂O_5(g) K = 2.6×10⁻¹¹
A mixture of NO₃ and a ten-fold excess of NO₂ are placed inside a rigid container at constant temperature and allowed to reach equilibrium. Which of the following provides a correct comparison of the equilibrium concentrations of these chemical species, and why?

[N₂O₅] << [NO₃] because a small K value indicates that the consumption of the reactants is favored at equilibrium.

[NO₂] << [N₂O₅] because a small K value indicates that the consumption of the reactants is favored at equilibrium.

[NO₂] << [NO₃] because a small K value indicates that the formation of the products is not favored at equilibrium.

[N₂O₅] << [NO₂] because a small K value indicates that the formation of the products is not favored at equilibrium.

MULTIPLE CHOICE QUESTION

2 mins • 1 pt

In the atmosphere, small water droplets are suspended in the air, forming an aerosol. N₂O_{5 (g)} can form HNO_{3 (aq)}under these conditions, as shown in reaction 2, represented below.
Reaction 1: NO_{3 (g)} + NO_{2 (g)} ↔ N₂O_{5 (g)}
Reaction 2: N₂O_{5 (g)} + H₂O _(l) → 2HNO_{3 (aq)}
Which of the following predicts the effect that the formation of will have on the equilibrium shown in reaction 1, and why?

The equilibrium of reaction 1 will shift toward the formation of more product, because N₂O_{5 (g)} is removed when it reacts to form HNO_{3 (aq)}.

The equilibrium of reaction 1 will shift toward the formation of more product, because H₂O _(l) acts as a catalyst for reaction 1.

The equilibrium of reaction 1 will shift toward the formation of more reactants, because the product N₂O_{5 (g)}is removed when it reacts to form HNO_{3 (aq)}.

The equilibrium of reaction 1 is not affected, because neither H₂O _(l) nor HNO_{3 (aq)} are gases.

Tags

NGSS.HS-PS1-6

MULTIPLE CHOICE QUESTION

2 mins • 1 pt

Fe³⁺_(aq) + SCN^-_(aq) ↔ FeSCN²⁺_(aq)
When colorless solutions containing Fe³⁺_(aq)ions and SCN^-_(aq) ions are combined, a deep-red complex ion FeSCN²⁺_(aq), quickly forms, as shown in the net ionic equation above. Which of the following explains the observation that adding a few additional crystals of KSCN_(s)results in the red color of the solution becoming deeper?

The added KSCN_(s) dissolves, disturbing the charge balance in the solution, causing Fe(SCN)_{3 (s)} to precipitate as a red solid.

The added KSCN_(s)dissolves, causing the solution to become saturated in SCN^- ions, which appear red at high concentrations.

The added KSCN_(s)dissolves, causing the reaction system to respond by producing more product to partially consume SCN^-_(aq) and reduce its concentration.

The added KSCN_(s)dissolves, causing the reaction system to respond by forming more Fe³⁺ ions, which have a deep orange color at high concentrations.

Tags

NGSS.HS-PS1-5

Create a free account and access millions of resources

Create resources

Host any resource

Get auto-graded reports

Continue with Google

Continue with Email

Continue with Classlink

Continue with Clever

or continue with

Microsoft

Apple

Others

Already have an account?

Popular Resources on Wayground

5 questions

This is not a...winter edition (Drawing game)

Quiz

•

1st - 5th Grade

25 questions

Multiplication Facts

Quiz

•

5th Grade

10 questions

Identify Iconic Christmas Movie Scenes

Interactive video

•

6th - 10th Grade

20 questions

Christmas Trivia

Quiz

•

6th - 8th Grade

18 questions

Kids Christmas Trivia

Quiz

•

KG - 5th Grade

11 questions

How well do you know your Christmas Characters?

Lesson

•

3rd Grade

14 questions

Christmas Trivia

Quiz

•

5th Grade

20 questions

How the Grinch Stole Christmas

Quiz

•

5th Grade

Discover more resources for Chemistry

20 questions

Ionic Compound Nomenclature

Quiz

•

9th - 12th Grade

30 questions

ERHS Chem - Chapter 6 Covalent Compounds

Quiz

•

11th Grade

42 questions

Chemistry Final Exam Review

Quiz

•

9th - 12th Grade

35 questions

Chemistry Semester A Final Review

Quiz

•

11th Grade

Equilibrium Conceptual

28 questions

X(g) + Y(g) ↔ XY (g)In an experiment, X(g) and Y(g) were combined in a rigid container at constant temperature and allowed to react as shown in the equation above. The table provides the data collected during the experiment. Based on the data, which of the following claims is most likely correct?

X(g) + Y(g) ↔ XY(g)The particle diagram above illustrates the changes that take place when X(g) and Y(g) are placed inside a rigid container at constant temperature. Which of the following is a characteristic of a system at equilibrium that is best represented by the particle diagram?

For which of the equilibrium systems represented below will the amount of product(s) at equilibrium increase if the volume of the reaction vessel is increased at a constant temperature?

For which of the following reaction mixtures at equilibrium would reducing the volume of the container at constant temperature cause the equilibrium to shift toward the products?

Create a free account and access millions of resources

Popular Resources on Wayground

Discover more resources for Chemistry

X_(g) + Y_(g) ↔ XY_(g)
The particle diagram above illustrates the changes that take place when X_(g) and Y_(g) are placed inside a rigid container at constant temperature. Which of the following is a characteristic of a system at equilibrium that is best represented by the particle diagram?