Serendip is an independent site partnering with faculty at multiple colleges and universities around the world. Happy exploring!
Reply to comment
Remote Ready Biology Learning Activities
Remote Ready Biology Learning Activities has 50 remote-ready activities, which work for either your classroom or remote teaching.
Narrative is determined not by a desire to narrate but by a desire to exchange. (Roland Barthes, S/Z)
What's New? Subscribe to Serendip Studio
Recent Group Comments
-
Owen Skyton (guest)
-
Keith Sgrillo
-
Keith Sgrillo
-
Wil Franklin
-
Kim (guest)
-
teal
-
Keith Sgrillo
-
RecycleJack Marine
-
Keith Sgrillo
-
Keith Sgrillo
Recent Group Posts
A Random Walk
Play Chance in Life and the World for a new perspective on randomness and order.
New Topics
-
3 weeks 6 days ago
-
4 weeks 2 days ago
-
4 weeks 2 days ago
-
4 weeks 2 days ago
-
4 weeks 2 days ago
An Adaptation of a Heart Rate Lab Activity by Igrid Waldron
Colleagues, While searching files for middle school activities to share with Jack, I found this lab from Dr. Waldron that I adapted for the school year 2008-09. I hope you find it useful for your science classes.
Regulation of Human Heart Rate
Adapted by Susan Dorfman from
Dr. Ingrid Waldron, Department of Biology,University of Pennsylvania , copyright, 2005
Part 1
Introduction
Why do you need to have a heart? Why do you need to have blood circulate to all the parts of your body?
How does your heart pump blood? What is a heart beat?
Does your heart always beat at the same rate?
List some activities or stimuli that you think may increase a person's heart rate. An activity is something a person does, and a stimulus is an input from the environment around a person.
Why would it be useful for the heart to beat faster during these activities or in response to these stimuli?
Are there any activities or stimuli that you think may decrease a person's heart rate?
Measuring Heart Rate Accurately
Each time the heart beats, blood is pumped into the arteries. As the blood surges into the arteries during a heart beat, each artery stretches and bulges. This brief bulge of the artery is called a pulse. You will be measuring heart rate by counting the number of pulses in the artery in the wrist in a 20 second interval.
To feel the pulse, find the artery in your partner's wrist. Place the tips of the first two fingers of one hand on the palm side of your partner's wrist, over toward the thumb side of his or her wrist. You may need to press quite firmly in order to feel the pulse of blood which each heart beat sends through the artery. Don't use your thumb to feel the pulse in the wrist, because your thumb has a pulse of its own.
To measure heart rate, count the number of pulses in 20 seconds. Multiply that number by 3, and you will have the number of heart beats per minute.
After you have practiced taking heart rate, it is important to check the accuracy of your heart rate measurements. Work in pairs using the following procedure to test and improve the accuracy of heart rate measurements.
(1) Choose one person in your group to be the subject and one person to measure the pulse count in the wrist. Look at a watch with a second hand to time a 20 second interval..
(2) Try to improve your technique, and repeat step 1 with the person who was the subject switching to become the partner measuring the pulse.
Designing Your Experiment
Discuss how you could test your ideas concerning activities or stimuli which may increase or decrease heart rate. Choose a hypothesis that your group would like to test in your next lab class. Write your hypothesis here.
Plan your experimental procedure.
Try to keep everything constant, except for the one stimulus or activity you want to test. This will allow you to measure the effect of the stimulus or activity you are testing, and minimize confounding effects due to any other factors that may influence heart rate. In designing your experiment, remember that heart rate can be affected by minor physical activity such as changing seats, so you need to keep this type of factor constant in order to assess the effects of your experimental stimulus or activity.
Plan to have each person in the group be a subject in the experiment, in order to see whether different people have the same heart rate response to your stimulus or activity.
In the space below, describe the procedure for your experiment. Be specific about what you plan to do to your subjects (the stimulus) or what you want your subjects to do (the activity). Specify when and how often you will measure heart rate; you will need to measure resting heart rate two or three times before your stimulus or activity, and you will need to measure heart rate during and/or after your stimulus or activity.
List of Specific Numbered Steps in Your Procedure
Your teacher will check your plan for your experiment, and make any suggestions that could improve the experimental procedure. Discuss these suggestions and, if you decide to make any changes in your experimental procedure, incorporate these changes in your description of your procedure.
Getting Ready to Do the Experiment
If you need to bring anything to do your experiment next time, decide who will bring the necessary materials or equipment.
Make a data sheet to collect the data during your experiment next time. The data sheet should include places to record the
If you complete these activities before the end of the period, you can begin the Hypothesis and Methods sections of your poster. (See below.)
Part 2
Doing Your Heart Rate Experiment
Review your experimental plan from last time, and carry out the experiment for each subject in your group. Record your data in the data sheets that you prepared.
Analyzing Your Results
Discuss the best way to analyze your data in order to test your hypothesis. You may want to use one of the following methods of analysis.
(1) For each subject, calculate the difference between the resting heart rate and the heart rate during or after the stimulus or activity. Make a table which shows these change in heart rate values. Calculate the average change in heart rate for all subjects in the experiment, and record this average in the table.
(2) For each subject, graph the resting heart rate and the heart rate during and/or after the stimulus or activity. Calculate the average resting heart rate and the average heart rate during and/or after the stimulus or activity. Graph these averages. Be sure to label both axes of any graph that you make.
Each student should analyze the data and attach the table or graphs you have prepared.
Do your results support your hypothesis? What conclusions can you draw from your experiment?
Poster
Each group should prepare a poster on their heart rate experiment. This poster should explain your hypothesis, the basic procedures you used, your main results (summarized in a graph and/or table), and your conclusions.