For the system: C O 2 ( g ) + H 2 ( g ) ⟺ C O ( g ) + H 2 O ( g ) CO_2\ \left(g\right)\ +\ H_2\ \left(g\right)\ \Longleftrightarrow\ CO\ \left(g\right)\ +\ H_2O\ \left(g\right) C O 2 ( g ) + H 2 ( g ) ⟺ C O ( g ) + H 2 O ( g ) K is 0.64 at 900 K. Calculate the equilibrium partial pressures of all species, starting with P C O 2 = P H 2 = 1.00 a t m ; P C O = P H 2 O = 0 P_{CO_2}=P_{H_2}=1.00\ atm;\ P_{CO}=P_{H_2O}=0 P C O 2 = P H 2 = 1 . 0 0 a t m ; P C O = P H 2 O = 0

P C O 2 = P H 2 = 0.56 a t m ; P C O = P H 2 O = 0.44 a t m P_{CO_2}=P_{H_2}=0.56\ atm;\ P_{CO}=P_{H_2O}=0.44\ atm P C O 2 = P H 2 = 0 . 5 6 a t m ; P C O = P H 2 O = 0 . 4 4 a t m

P C O 2 = P H 2 = 0.18 ; P C O = P H 2 O = 0.72 a t m P_{CO_2}=P_{H_2}=0.18;\ P_{CO}=P_{H_2O}=0.72\ atm P C O 2 = P H 2 = 0 . 1 8 ; P C O = P H 2 O = 0 . 7 2 a t m

P C O 2 = P H 2 = 0.44 a t m ; P C O = P H 2 O = 0.56 a t m P_{CO_2}=P_{H_2}=0.44\ atm;\ P_{CO}=P_{H_2O}=0.56\ atm P C O 2 = P H 2 = 0 . 4 4 a t m ; P C O = P H 2 O = 0 . 5 6 a t m

P C O 2 = P H 2 = 0.72 a t m ; P C O = P H 2 O = 0.18 a t m P_{CO_2}=P_{H_2}=0.72\ atm;\ P_{CO}=P_{H_2O}=0.18\ atm P C O 2 = P H 2 = 0 . 7 2 a t m ; P C O = P H 2 O = 0 . 1 8 a t m

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GSS 13 Chemical Equilibrium/Le Chatelier's Principle

Authored by Lauren Cho

Science, Chemistry

University

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GSS 13 Chemical Equilibrium/Le Chatelier's Principle

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MULTIPLE SELECT QUESTION

5 mins • 1 pt

At constant temperature, a change in volume will NOT affect the moles of substance present in which of the following?

H2 (g) + I2 (g) $\Longleftrightarrow$ 2 HI (g)

CO (g) + Cl2 (g) $\Longleftrightarrow$ COCl2 (g)

PCl5 (g) $\Longleftrightarrow$ PCl3 (g) + Cl2 (g)

N2 (g) + 3 H2 (g) $\Longleftrightarrow$ 2 NH3 (g)

Fe3O4 (s) + 4 H2 (g) $\Longleftrightarrow$ 3 Fe (s) + 4 H2O (g)

MULTIPLE CHOICE QUESTION

5 mins • 1 pt

C (s) + H2O (g) $\Longleftrightarrow$ CO (g) + H2O (g) endothermic

An equilibrium mixture of the reactants is placed in a sealed container at $150\ \degree C$ . The amount of the products may be increased by which of the following changes?

increasing the volume of the container

raising the temperature of the container and increasing the volume of the container

raising the temperature of the container

increasing the volume of the container and adding 1 mol of C (s) to the container

MULTIPLE CHOICE QUESTION

5 mins • 1 pt

Consider the following system at $100\degree C$ :
$N_2O_4\ \left(g\right)\ \Longleftrightarrow\ 2\ NO_2\ \left(g\right)\ \ \ K_p\ =\ 11$

Predict the direction in which the reaction will occur to reach equilibrium, starting with 0.10 mol of N2O4 and 0.20 mol of NO2 in a 2.0-L container

forward

it's already at equilibrium

reverse

MULTIPLE CHOICE QUESTION

10 mins • 1 pt

For the system: $CO_2\ \left(g\right)\ +\ H_2\ \left(g\right)\ \Longleftrightarrow\ CO\ \left(g\right)\ +\ H_2O\ \left(g\right)$
K is 0.64 at 900 K. Calculate the equilibrium partial pressures of all species, starting with
$P_{CO_2}=P_{H_2}=1.00\ atm;\ P_{CO}=P_{H_2O}=0$

$P_{CO_2}=P_{H_2}=0.18;\ P_{CO}=P_{H_2O}=0.72\ atm$

$P_{CO_2}=P_{H_2}=0.44\ atm;\ P_{CO}=P_{H_2O}=0.56\ atm$

$P_{CO_2}=P_{H_2}=0.56\ atm;\ P_{CO}=P_{H_2O}=0.44\ atm$

$P_{CO_2}=P_{H_2}=0.72\ atm;\ P_{CO}=P_{H_2O}=0.18\ atm$

MULTIPLE CHOICE QUESTION

10 mins • 1 pt

For the system: $CO_2\ \left(g\right)\ +\ H_2\ \left(g\right)\ \Longleftrightarrow\ CO\ \left(g\right)\ +\ H_2O\ \left(g\right)$
K is 0.64 at 900 K. Calculate the equilibrium partial pressures of all species, starting with
$P_{CO_2}=2.00\ atm;\ P_{H_2}=1.00\ atm;\ P_{CO}=P_{H_2O}=0$

$P_{CO_{ }}=P_{H_2O}=0.70\ atm;\ P_{CO_2}=1.50\ atm;\ P_{H_2}=0.10\ atm$

$P_{CO_{ }}=P_{H_2O}=0.30\ atm;\ P_{CO_2}=0.70\ atm;\ P_{H_2}=0.20\ atm$

$P_{CO_{ }}=P_{H_2O}=0.60\ atm;\ P_{CO_2}=1.40\ atm;\ P_{H_2}=0.40\ atm$

$P_{CO_{ }}=P_{H_2O}=0.80\ atm;\ P_{CO2}=1.60\ atm;\ P_{H_2}=0.50\ atm$

MULTIPLE SELECT QUESTION

3 mins • 1 pt

The system $3\ Z\ \left(g\right)\ +\ Q\ \left(g\right)\ \Longleftrightarrow\ 2\ R\ \left(g\right)$
is at equilibrium when the partial pressure of Q is 0.44 atm. Sufficient R is added to increase the partial pressure of Q temporarily to 1.5 atm. When equilibrium is re-established, the partial pressure of Q could be which of the following? Select all that apply.

1.5 atm

1.2 atm

0.80 atm

0.44 atm

0.40 atm

MULTIPLE SELECT QUESTION

3 mins • 1 pt

For this chemical reaction: $\ A\ \left(g\right)\ +\ 2\ B\ \left(s\right)\ +\ 3\ C\ \left(l\right)\ \Longleftrightarrow\ 4\ D\ \left(g\right)\ +\ 2\ E\ \left(g\right)$ if we want to increase the ratio of desired products D and E at equilibrium compared to reactants, how might we do this? Assume the reaction progresses and it feels cold to touch...

Increase pressure in the constant volume container

Raise the temperature with a hot water bath

Increase the volume by expansion in a piston

Removing product E as soon as it forms

Adding a catalyst

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GSS 13 Chemical Equilibrium/Le Chatelier's Principle

At constant temperature, a change in volume will NOT affect the moles of substance present in which of the following?

C (s) + H2O (g) ⟺\Longleftrightarrow⟺ CO (g) + H2O (g) endothermicAn equilibrium mixture of the reactants is placed in a sealed container at 150 °C150\ \degree C150 °C . The amount of the products may be increased by which of the following changes?

Rank the difficulty/helpfulness of the questions today. Compare them to the rigor of the exam-type questions!!!

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C (s) + H2O (g) $\Longleftrightarrow$ CO (g) + H2O (g) endothermic

An equilibrium mixture of the reactants is placed in a sealed container at $150\ \degree C$ . The amount of the products may be increased by which of the following changes?