Title

By Me Myself and My Partner(s)

1Purpose

What physics do you intend to test this week with your experiment? Be specific and be complete, but stay on topic. Usually our experiment will test several equations with various levels of directness and completeness. Always communicate with complete sentences.

2Procedure

Talk about your apparatus and your method. Typically, your apparatus contains commercially available equipment whose maker name and model number will lead the reader to a more complete description from the manufacturer if he requires it; this saves you the trouble of providing them here. Many times illustrations such as Figure 1 will make your description easier, quicker, and more informative.

Figure 1: Click the object (picture...) to select it. On the REFERENCES tab, click "Insert Caption".

VERY briefly, how was the apparatus used and what numbers did it yield (i.e.Figure 2 andTable 1)? How were these numbers processed and with what tools?

3Data

Generally, data will occupy tables such asTable 1; but frequently the apparatus gives us different numbers like Figure 2 and these numbers were processed first to get the numbers in Table 1. For clarity this entire sequence should be documented in your Data; however, only a single example amply demonstrates how this was done. The first acceleration in Table 1 comes from the quadratic term in the model in Figure 2

. / (1)

The rotational form of Newton’s law, , suggests a linear relationship between the first and third column of Table 1, so we demonstrate this possibility in Figure 3, etc. Excessive detail is not desired; clarity is far more important.

Table 1:The different kinds of labels may be selected from a drop-down box in the Captions dialog box. Select a table at its top left corner; it will all turn grey when selected. Word’s equation labels are a bit troublesome to use; ask for assistance if you cannot achieve satisfactory results.

Acceleration (rad/s2) / Hanging Mass (g) / Torque (×10-3 N m)
0.7048 ± 0.0015 / 3.93± 0.04 / 0.902
… / … / …

Figure 2: Right-clicking an object allows you to resize it, to specify what page position you want it, to specify whether you want text on its left and/or right sides (and how close this text can come), whether you want to crop out a specific area, etc.

Right-clicking cells in a table allows you to insert rows and/or columns; selecting multiple rows or columns before right-clicking allows you to insert or to delete many at once.

For those who have experience with LaTeX, many of the commands are the same in Word’s new equation editor as they are in LaTeX’ “math mode”.

Newton’s law requires that the slope in Figure 3 be equal to the disk’s moment of inertia, so we measure (R=…) and weigh (M=…) the disk to compute its moment of inertia for comparison. The equation editor can be found on the INSERT tab at the far right

. / (2)

Thus ends the first experiment; we have a slope predicted by Newton’s law and we have a moment of inertia computed without Newton’s law. If these two numbers agree, then we have substantial evidence for Newton’s law.

We continue to perform other experiments to check different aspects of Newton’s law or to check the validity of other physics.

4Analysis

Now we need to find out whether the numbers predicted by the model are equal to the numbers measured another way without the model. Since experiments cannot yield exact data, we must use statistics to answer this question: Is it sufficiently unlikely that the two values are equal that we can reject the model? Disagreements, >3, suggest that we probably should reject the model unless there are good and valid reasons for the disagreements.

where

.

We repeat this analysis for each experiment performed.

We discuss the limitations of our experiment. What assumptions have we made that might not be realized? What other error sources might our experiment have experienced? What other reasons might cause our measurement and/or our prediction to vary from its true value?

What miscellaneous observations suggest one way or the other whether a particular experimental hypothesis is true? For example, did we get a straight line like Newton said we should?

5Conclusions

What physics have your experiments demonstrated? Carefully discuss them all. How might the experiment be improved in the future?

Proficiency using Word requires practice, but don’t try to learn everything before submitting your first report! There will be another opportunity next week to learn a little more.