Lab Report Guidelines

Lab Report Guidelines

1) Introduction: Explain the theory behind this experiment in a paragraph between 150 and 250 words. (2 Points)

Suppose you are using external resources; include the reference. It would be best if you had any relevant formulas and explanations of each term. You may use the rich formula tools embedded here.

2) Hypothesis: In an If /Then statement, highlight the purpose of the experiment.

For instance: If two same shape objects with different masses are dropped from the same height, they will hit the ground simultaneously. (2 points)

Post-lab section:

3) Attach your analysis here, including any table, chart, or plot image. (3 Points)

Lab Report Guidelines

4) Attach the image of any table, chart, or plot here. (4 points)

Each part is 2 points.

Table 1 and the calculation of the percent error.

Table 2 and the calculation of the percent error.

5) Attach the image of samples of your calculation here. (2 points)

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6) In a paragraph between 100 and 150 words, explain what you Learn. What conclusion can you draw from the results of this lab assignment? (2 points)

Lab Report Guidelines

7) In one sentence, compare the results of the experiment with your Hypothesis. Why? (1 point)

8) Attach your response to the questions in the lab manual here. (4 points)

1. Explain the theory behind this experiment in 150–250 words.,

2. State the hypothesis in an If/Then format.,

3. Provide the analysis including tables charts or plots.,

4. Explain in 100–150 words what you learned and your conclusion.,

5. Compare the results with your hypothesis in one sentence and explain why.

Comprehensive General Answer:

1. Introduction
This experiment investigates the principles underlying the observed physical phenomenon, applying relevant scientific laws and mathematical relationships. The theory section should discuss the scientific concepts being tested, supported by formulas and definitions of each variable involved. For example, if the experiment measures motion, Newton’s laws, kinematics equations, and variables like displacement (s), time (t), velocity (v), and acceleration (a) would be described. The goal is to establish the theoretical basis for the experiment, enabling a clear understanding of why and how the observed results occur. References should be provided for any external resources used, following proper citation standards.

2. Hypothesis
If the experiment is conducted under the specified conditions, then the measured outcome will align with the theoretical prediction due to the consistency of the physical laws being applied.

3. Analysis
The analysis should contain processed experimental data, organized into clear tables and visualized through charts or plots. Percent error calculations for each dataset compare experimental results with theoretical values, providing insight into measurement accuracy and experimental reliability.

4. Conclusion (What You Learned)
From the experiment, it can be concluded that the observed results generally support the theoretical framework, though minor deviations may occur due to measurement errors, environmental factors, or instrument limitations. This reinforces the importance of accurate measurement and control of variables in experimental science.