Worksheet
Pendulum Lab Review
Vocabulary.
Based on your lab using a simple pendulum, match the correct definition to each word.
1. independent variable
2. dependent variable
3. vibration
4. length of a pendulum
5. amplitude of oscillation
6. point of suspension
7. center of mass
8. period
9. acceleration due to gravity
the amount of time for one vibration
the strength of the earth's gravitational field
the angle from which the bob is initially released with respect to its equilibrium position
the distance from the pendulum's point of suspension to the center of mass of its bob
the pivot point
in an experiment, this is the variable whose value is an outcome of the experiment.
the point where all of the mass of the object can be considered to be concentrated
in an experiment, this is the variable which is controlled.
one complete back and forth motion
Data Analysis.
Using the information given in the data chart, complete the two designated rows in the following table. Note: Each trial of the pendulum was timed for 30.0 seconds.
L
L
average
frequency
period
period
^{2}
(cm)
(m)
(vib)
(hz)
(sec)
(sec
^{2}
)
150
75
General Graph Questions.
1. Based on its axes, what is the title of this graph?
2. What are the co-ordinates of two grid points?
3. What is the numerical value of the slope of this line?
4. In what units is the slope measured?
5. Write the equation for this line.
6. Based on your graphical analysis, use the equation of your regression line to predict the period of a pendulum that is 3.0 meters long.
7. Theoretically, the slope of this graph represents the expression 4
π
^{2}
/g. By setting the numerical value of your slope equal to this expression, determine the experimental value for g, the earth's gravitational field strength, in your classroom.
8. If the accepted value for g in this lab is 9.8 m/sec
^{2}
, what is the percent error for this experimental data?
9. When you conducted your experiment, did the mass of the pendulum bob affect its period?
10. When you conducted your experiment, how did the length of the pendulum affect its period?
PhysicsLAB
Copyright © 1997-2018
Catharine H. Colwell
All rights reserved.
Application Programmer
Mark Acton