Chemical Equilibrium I Part 1: You run the chemical reaction C ( a q ) + D ( a q ) ⇌ 2E ( a q ) at 25°C. The equilibrium constant K c for the reaction at this temperature is 2.0. a Write the equilibrium-constant expression for the reaction. b Can you come up with some possible concentrations of C, D, and E that you might observe when the reaction has reached equilibrium at 25°C? What are these values? c A student says that only a very limited number of concentrations for C, D, and E are possible at equilibrium. Is this true? State why you think this is true or is not true. d If you start with 1.0 M concentrations of both C and D and allow the reaction to come to equilibrium, would you expect the concentration of C to have decreased to zero? If not, what would you expect for the concentration of C? (An approximate value is fine.) Part 2: Consider the reaction A ( a q ) ⇌ F ( a q ) + G ( a q ) , whose equilibrium constant is 1.0 × 10 −5 at 20°C. For each of the situations described below, indicate whether any reaction occurs. If reaction does occur, then indicate the direction of that reaction and describe how the concentrations of A, B, F, and G change during this reaction. a A( aq ) and B( aq ) are mixed together in a container. b F( aq ) and G( aq ) are mixed together in a container. c A( aq ) and F( aq ) are mixed together in a container. d B( aq ) and G( aq ) are mixed together in a container. e Just B( aq ) is placed into a container. f Just G( aq ) is placed into a container. Consider any one of these situations in which a reaction does occur. At equilibrium, does the reaction mixture have appreciably more products than reactants? If not, how would you describe the equilibrium composition of the reaction mixture? How did you arrive at this answer?
Chemical Equilibrium I Part 1: You run the chemical reaction C ( a q ) + D ( a q ) ⇌ 2E ( a q ) at 25°C. The equilibrium constant K c for the reaction at this temperature is 2.0. a Write the equilibrium-constant expression for the reaction. b Can you come up with some possible concentrations of C, D, and E that you might observe when the reaction has reached equilibrium at 25°C? What are these values? c A student says that only a very limited number of concentrations for C, D, and E are possible at equilibrium. Is this true? State why you think this is true or is not true. d If you start with 1.0 M concentrations of both C and D and allow the reaction to come to equilibrium, would you expect the concentration of C to have decreased to zero? If not, what would you expect for the concentration of C? (An approximate value is fine.) Part 2: Consider the reaction A ( a q ) ⇌ F ( a q ) + G ( a q ) , whose equilibrium constant is 1.0 × 10 −5 at 20°C. For each of the situations described below, indicate whether any reaction occurs. If reaction does occur, then indicate the direction of that reaction and describe how the concentrations of A, B, F, and G change during this reaction. a A( aq ) and B( aq ) are mixed together in a container. b F( aq ) and G( aq ) are mixed together in a container. c A( aq ) and F( aq ) are mixed together in a container. d B( aq ) and G( aq ) are mixed together in a container. e Just B( aq ) is placed into a container. f Just G( aq ) is placed into a container. Consider any one of these situations in which a reaction does occur. At equilibrium, does the reaction mixture have appreciably more products than reactants? If not, how would you describe the equilibrium composition of the reaction mixture? How did you arrive at this answer?
Solution Summary: The author explains the expression for the equilibrium constant for a given reaction and the initial and equilibrium compositions of the reactants and products.
Part 1: You run the chemical reaction
C
(
a
q
)
+
D
(
a
q
)
⇌
2E
(
a
q
)
at 25°C. The equilibrium constant Kc for the reaction at this temperature is 2.0.
a Write the equilibrium-constant expression for the reaction.
b Can you come up with some possible concentrations of C, D, and E that you might observe when the reaction has reached equilibrium at 25°C? What are these values?
c A student says that only a very limited number of concentrations for C, D, and E are possible at equilibrium. Is this true? State why you think this is true or is not true.
d If you start with 1.0 M concentrations of both C and D and allow the reaction to come to equilibrium, would you expect the concentration of C to have decreased to zero? If not, what would you expect for the concentration of C? (An approximate value is fine.)
Part 2: Consider the reaction
A
(
a
q
)
⇌
F
(
a
q
)
+
G
(
a
q
)
, whose equilibrium constant is 1.0 × 10−5 at 20°C. For each of the situations described below, indicate whether any reaction occurs. If reaction does occur, then indicate the direction of that reaction and describe how the concentrations of A, B, F, and G change during this reaction.
a A(aq) and B(aq) are mixed together in a container.
b F(aq) and G(aq) are mixed together in a container.
c A(aq) and F(aq) are mixed together in a container.
d B(aq) and G(aq) are mixed together in a container.
e Just B(aq) is placed into a container.
f Just G(aq) is placed into a container.
Consider any one of these situations in which a reaction does occur. At equilibrium, does the reaction mixture have appreciably more products than reactants? If not, how would you describe the equilibrium composition of the reaction mixture? How did you arrive at this answer?
Definition Definition State where the components involved in a reversible reaction, namely reactants and product, do not change concentration any further with time. Chemical equilibrium results when the rate of the forward reaction becomes equal to the rate of the reverse reaction.
Do the Lone Pairs get added bc its valence e's are a total of 6 for oxygen and that completes it or due to other reasons. How do we know the particular indication of such.
NGLISH
b)
Identify the bonds present in the molecule drawn (s) above.
(break)
State the function of the following equipments found in laboratory.
Omka)
a) Gas mask
b) Fire extinguisher
c) Safety glasses
4.
60cm³ of oxygen gas diffused through a porous hole in 50 seconds. How long w
80cm³ of sulphur(IV) oxide to diffuse through the same hole under the same conditions
(S-32.0.0-16.0)
(3 m
5.
In an experiment, a piece of magnesium ribbon was cleaned with steel w
clean magnesium ribbon was placed in a crucible and completely burnt in oxy
cooling the
product weighed 4.0g
a)
Explain why it is necessary to clean magnesium ribbon.
Masterclass Holiday assignmen
PB 2
Hi!!
Please provide a solution that is handwritten. Ensure all figures, reaction mechanisms (with arrows and lone pairs please!!), and structures are clearly drawn to illustrate the synthesis of the product as per the standards of a third year organic chemistry course. ****the solution must include all steps, mechanisms, and intermediate structures as required.
Please hand-draw the mechanisms and structures to support your explanation. Don’t give me AI-generated diagrams or text-based explanations, no wordy explanations on how to draw the structures I need help with the exact mechanism hand drawn by you!!! I am reposting this—ensure all parts of the question are straightforward and clear or please let another expert handle it thanks!!
Chapter 14 Solutions
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