Computer Prep Math Project 8

Page 1Technical Math IILab4: Simple Pendulum

Lab 4: The Simple Pendulum

Name Name

Name Name

Purpose:To investigate the relationship between the length of a simple pendulum and the time it takes to complete a full swing.

Equipment: String, stop watch, weights, meter stick, protractor, ( a balance if available).

General Procedure: Tie one of the weights to the end of the string. From the centerofthe weight, measure off the specified lengthof the string. Holding the string at this distance, let the lead weight swing freely from an initial position that makes a 20°angle ( = 20°) with the vertical. Measurethe time for 10 full swings of the weight. Divide this time by 10 to obtain the period,T, the time for one full swing. Repeat this procedure for each of the specified values ofL.Then repeat the experiment for  = 30°. Finally, pick a second, different mass (weight) and repeat the entire set of measurements.

1. Data Collection (15 points)

Table 1

Data Table for First Weight ( If Balance is available mass of weight = ______)

Table 2

Data Table for Second Weight ( If Balance is available mass of weight = ______)

Give a brief but accurate description of the procedure you followed in obtaining your data. Use diagrams where necessary andidentify all pertinent variables.

II. Data Analysis (15 points)

What were the relevant variables in this experiment?

Which variables were independent and which were dependent?

Enter your data into an Excel spreadsheet and construct a graph of Tversus L Label all axes and label each curve as to the weight and angle used. Put allfour curves on the same graph. Attach your spreadsheet with your lab report.

In general, how did the period depend on the initial angle?

In general, how did the period depend on the weight used?

Now in Excel construct a new graph of ln(T) versus ln(L). You will need to generate five new columns, one for ln(L) and four for the ln(T) associated with each weight and angle. Label all axes and label each curve as to the weight and angle used. Put all four curves on the same graph. Generate trend lines displaying the equation and R2 for each curve. Include the spread sheet with your lab write up.

III.Interpretation (15 points)

Is the relationship between Tand Llinear? Explain your answer.

Is the relationship between ln(T) and ln(L) linear? Explain your answer.

From elementary physics the period of a simple pendulum for small initial angles satisfies a 'power law' relationship to the length. That is. WhereA is a constant independent of L. From your data obtain estimates of A and p. Explain how you obtained your estimates.

Estimated value of p = ______Estimated value of A = ______

For the same weight and angle you just used, estimate the period ifL = 100.0 cm. If you have the equipment you may wish to check this estimate by actually measuring the period.

Estimated period for a length of 100.0 cm = ______

IV. Application (5 points)

Below is a table of data on the electrical resistance, R, for a 1.00 meter length of different gauge copper wire. The wire's diameter is d.

Copper Wire Resistance Data

According to theory the resistance is related to diameter by a 'power law'. That is , where Ais a constant independentof d. From the table obtain estimates of A and p. Explain how you obtained your estimates.

Estimated value of p = ______Estimated value of A = ______

Estimate the resistance for a 1.00 meter length of 35 gauge copper wire (d = 0.01984 cm) .

Estimated resistance for a 1.00 m length of 35 gauge copper wire = ______