In your experiment you used .557 g of Cu metal to start your first reaction. At...
In your experiment you used .557 g of Cu metal to start your first reaction. At the end of the experiment you isolate .581 g of solid Cu. Which of the following is a likely explanation for this result.
(Choose all that apply)
a) you did not give your Cu crystals enough time to dry completely
b) The balance must be broken
c) The experiment was a success
d) there was some unreacted Zn mixed in with the Cu
e) some Cu was left behind in the buchner funnel after filtration
Homework Answers
The condition explained in this video happens most of the times ans the reasons may vary depending different conditions and scenarios.
For this experiment the reasons may be among the given option below
a. you did not give your Cu crystals enough time to dry completely
this is the major source of error in most of the cases.when we do not dry the crystals completely we may get increased weight of the final product.
Or
d) there was some unreacted Zn mixed in with the Cu
this also may be the reason behind this phenomenon. The unreacted zinc may cause the weight of copper to increase.
All other reasons seems not to be the reason for this case.
I hope this helps. If you have any query or want a more detailed explaination feel free to ask in the comment section below.
Add Answer to:
In your experiment you used .557 g of Cu metal to start your
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The first picture is used for question #2, and question #3 can be normally answered. I...
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Part A of experiment: Working in the fume hood, combine 4.0 mL of 10% NaOH solution and 4 mL EtOH in a 50 mL round bot...
Part A of experiment:
Working in the fume hood, combine 4.0 mL of 10% NaOH solution
and 4 mL EtOH in a 50 mL round bottom flask.
Dissolve 1.0 mL (8.6 mmol) of acetophenone into your
solution.
Add 1.0 mL (9.8 mmol) of benzaldehyde and a magnetic stir bar to
your flask. Clamp the flask
above a stir plate.
Monitor the reaction for 45 minutes by TLC. Acetophenone needs
to be diluted prior to TLC, and
cannot be spotted neat....
Extraction of solids: Experiment outlined below Draw a “roadmap” of the experiment, containing chemical structures and...
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Draw a “roadmap” of the experiment, containing chemical
structures and “layers” (organic and aqueous). This should contain
the individual reactions occurring in each step, and show which
layer the various components are present. Make sure you think about
whether the acetaminophen, caffeine and aspirin are neutral,
protonated or deprotonated.
Preliminary separation obtain a sample (1.0g) of the mixture. weigh the sample and record it. this sample should consist of a 2:1:1 mixture (by mass)...
Can someone tell me if a theoretical yield needs to be
calculated for this experiment? And if so, how do you calculate it?
please show all work. thank you. btw the aniline weighs
6.69g.
Synthesis of Acetanilide Acetanilide is synthesized from aniline by a reaction known as acylation. Acylation is the addition of an acyl group to a compound. In this experiment, aniline (1 amine) is reacted with acetic anhydride (acylating agent) to form acetanilide (an amide). H-C-CH3 + CH...
What is the limiting reagent in this experiment? Acetophenone or
aqueous bleach?
1. Add about 1.0 g (measured accurately) of acetophenone to 40 mL of the bleach solution (5% NaCl in water - this reactant should be included in your table of reagents!) in a 100 mL round bottom flask equipped with a magnetic stirrer. Clamp the flask in the fume hood above a stir plate. 2. After the initial reaction has subsided, boil the reaction mixture gently for 5...
What is the mechanism (with
curved arrows) for this reaction?
1. Add about 1.0 g (measured accurately) of acetophenone to 40 mL of the bleach solution (5% NaCl in water - this reactant should be included in your table of reagents!) in a 100 mL round bottom flask equipped with a magnetic stirrer. Clamp the flask in the fume hood above a stir plate. 2. After the initial reaction has subsided, boil the reaction mixture gently for 5 - 10...
Determine the theoretical yield and limiting reagent
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EXPERIMENTAL PROCEDURE 1. Using a 50.0 mL graduated cylinder, obtain 40.0 mL of the unknown water sample. This ample contains an unknown amount of BaCh, Pour this into a 100 mL beaker 2. Add 20.0 ml. of the NasPO solution provided to your unknown solution in the 100 ml, beaker The amount of NaPOs you are adding in the 20.0 ml, of solution is more than enough to provide for complete reaction of the unknown BaClh, Consequently, you can be...
The first picture is used for question #2, and question #3 can
be normally answered. I believe the answer to question 3 is ->
0.07144M. However I would like someone to check it. I am not sure
about 2.
BE SURE THAT YOU RECORD ALL OF YOUR DATA AND LABEL PROPERLY FOR PARTI OF THIS LABORATORY EXPERIMENT. YOU WILL NEED TO ACCESS THIS INFORMATION IN THREE WEEKS. Part I Synthesis of the Complex Salt containing Copper Procedure 16.004 1. In...
Part A of experiment:
Working in the fume hood, combine 4.0 mL of 10% NaOH solution
and 4 mL EtOH in a 50 mL round bottom flask.
Dissolve 1.0 mL (8.6 mmol) of acetophenone into your
solution.
Add 1.0 mL (9.8 mmol) of benzaldehyde and a magnetic stir bar to
your flask. Clamp the flask
above a stir plate.
Monitor the reaction for 45 minutes by TLC. Acetophenone needs
to be diluted prior to TLC, and
cannot be spotted neat....
Extraction of solids: Experiment outlined below
Draw a “roadmap” of the experiment, containing chemical
structures and “layers” (organic and aqueous). This should contain
the individual reactions occurring in each step, and show which
layer the various components are present. Make sure you think about
whether the acetaminophen, caffeine and aspirin are neutral,
protonated or deprotonated.
Preliminary separation obtain a sample (1.0g) of the mixture. weigh the sample and record it. this sample should consist of a 2:1:1 mixture (by mass)...
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