Designing Experiments
SelfGuide

SECTION FOUR : Discussion

Interpreting the results of the lab

Step 1: Write a sentence or two stating whether or not the results from the lab procedures fully support your hypothesis, do not support the hypothesis, or support the hypothesis but with certain exceptions.

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• Go back to the first part of your Introduction. Then review your findings, the data from the experiment. Make a judgment about whether or not the hypothesis has been supported. It is at this point that you, as a scientist, must be as unbiased and objective as possible.
• Write a sentence stating your judgment. There are three possible judgments you can make:
1. the data support the hypothesis;
2. the data do not support the hypothesis; or
3. the data generally support the hypothesis but with certain exceptions (tell what those exceptions are).

Example: "The hypothesis that X solution would increase in viscosity when solutions Y and Z were added was supported by the data."

Step 2: In a paragraph, identify specific data from your lab that led you to either support or reject your hypothesis. Refer to the visual representations of your data as evidence to back up your judgment about the hypothesis.

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• Return to the Results to identify the particular data that led you to your judgment about the hypothesis.
• Write a paragraph (or 2 if necessary) in which you present the relevant pieces of data from the lab and show how they relate to the hypothesis.
• Refer to data from specific visuals appropriately: Table 1, Figure 2, etc.

Step 3: In a paragraph or two, use your understanding of the scientific concept of this lab to explain why the results did or did not support your hypothesis. If the hypothesis from the Introduction was not fully supported, show how your understanding of the scientific concept has changed. Note any citations you use here for including in the Reference section of your report.

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In Step 2 you pointed to data that led you to your judgment about your hypothesis. Now you use your understanding of the scientific concept of the lab to explain your judgment. Whatever the relationship between the hypothesis and the results, you must provide a logical, scientific basis for it.

• Return to the scientific reasoning you used to generate your hypothesis (Step 2 of the Introduction). Use it and your understanding of the scientific concept of the lab as starting points for your explanation. Your explanation is likely to follow one of four scenarios. Choose the one that best fits your report:
  • If the results fully support your hypothesis and your reasoning in the Introduction was basically sound, then elaborate on your reasoning by showing how the science behind the experiment provides an explanation for the results.
  • If the results fully support your hypothesis but your reasoning in Introduction was not completely sound, then explain why the initial reasoning was not correct and provide a better reasoning.
  • If the results generally support the hypothesis but in a limited way, then describe those limitations (if you have not already done so) and use your reasoning as a basis for discussing why those limitations exist.
  • If the results do not support your hypothesis, then explain why not; consider (1) problems with your understanding of the lab's scientific concept; (2) problems with your reasoning, and/or (3) problems with the laboratory procedure itself (if there are problems of reliability with the lab data or if you made any changes in the lab procedure, discuss these in detail, showing specifically how they could have affected the results and how the uncertainties could have been eliminated).

Step 4: In a paragraph or two, restate the research question and present the answer your experiment has suggested for that question. Show how the experiment has helped you to solve for the unknowns.Then restate the problem that your research was designed to solve and discuss the solution to the problem suggested by the answer to the research question.

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At this point in the lab report you return to where you started in the Introduction, the problem. The goal of the lab was to answer the research question in order to solve the problem. Now that you have presented your data and made a judgment about your hypothesis, you are ready to come full circle back to the problem.

• Go back to the research question you posed in the Introduction. The experiment you performed was designed to answer that question. If you are having trouble starting this paragraph, here are some suggestions: “The research question for this experiment was….”; “The experiment described in this report was designed to answer the question,…”; “The research reported here addressed the issue of…”.
• The research question probably grew out of the unknowns in the problem. Answer the question in such a way that you show a direct link between the answer and the unknowns.
• The solution to the problem is most likely going to center on the identification of the unknowns. State the solution to the problem and show how the solution to the problem came out of the identification of the unknowns.
• A good discussion is going to enable the reader to draw a clear line from the experimental data through the hypothesis and the answer to the research question to the solution to the problem.

Step 5: Discuss other items as appropriate, such as (1) any problems that occurred or sources of uncertainty in your lab procedure that may account for any unexpected results; (2) how your solution to the problem compared with the solutions of other students in the lab and an explanation for any differences; (3) suggestions for improving the lab.

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• In science, a source of uncertainty is anything that occurs in the laboratory that could lead to uncertainty in your results. Sources of uncertainty can occur at any point in the lab, from setting up the lab to analyzing data, and they can vary from lab to lab. Return to the notes you took during the lab procedure. Look for possible sources of uncertainty in setting up the lab, calibrating instruments, and taking measurements as well as problems with the materials you are using.
• In scientific articles, the Discussion is where scientists typically compare their results to those from other similar scientific experiments. You can do something similar in your lab report. If you have compared your results with others in your lab, describe what you found and comment on any differences in the solutions to the problem: what were the differences, why there were differences, and what are the implications of the differences for the problem? Be sure to check with the lab instructor beforehand to see if it is permissible to compare results. You may also draw comparisons between your experiment and similar experiments in the topic you're studying, as described in scientific journals. This would be a good place to use the literature you gathered during the research phase of your experiment.

  For more advanced labs:

• It may be useful to classify the kinds of uncertainty you have identified. Sources of uncertainty can be classified as random--those that cannot be predicted--or as systematic--those that are related to personal uncertainty, procedural uncertainty, or instrumental uncertainty.