Home Store Project Ideas Project Guide Ask An Expert Blog Careers Teachers Parents Students

Modeling the Human Cardiovascular System: The Factors That Affect Blood Flow Rate

Difficulty
Time Required Short (2-5 days)
Prerequisites None
Material Availability You will need access to a hand drill with bits of different sizes. See the Materials and Equipment list for details.
Cost Low ($20 - $50)
Safety Use caution when using a drill. Be sure to wear safety goggles. Adult supervision is recommended.

Abstract

People often call cardiovascular disease a "silent killer." This disease sneaks up and causes damage, but patients don't realize it—until serious symptoms start. That is why physicians recommend keeping your cardiovascular system healthy. A healthy cardiovascular system gives us the energy and the stamina to do all of the things that we want to accomplish, such as do our best in school and perform well in sports. But what makes a cardiovascular system unhealthy, and what are the factors that lead to problems like poor blood flow rate? In this life science project, you will build a model of the heart and the arteries with a bucket, tubes, and water to see what affects blood (water) flow rate. You will see what it takes to maintain a healthy heart and arteries.

Objective

Build a model of the human cardiovascular system, and investigate the effect of changing the diameter of an artery, due to disease, on blood flow rate.

Credits

Michelle Maranowski, PhD, Science Buddies

Edited by Colleen Callaghan, MD

This science project idea is based on this 2010 California State Science Fair entry: Balasingam, Namrata. (2010). On the Rate of Flow of Liquids in Tubes and Its Implications to Cardiovascular Health.

Cite This Page

MLA Style

Science Buddies Staff. "Modeling the Human Cardiovascular System: The Factors That Affect Blood Flow Rate" Science Buddies. Science Buddies, 22 Aug. 2013. Web. 18 Sep. 2014 <http://www.sciencebuddies.org/science-fair-projects/project_ideas/HumBio_p032.shtml>

APA Style

Science Buddies Staff. (2013, August 22). Modeling the Human Cardiovascular System: The Factors That Affect Blood Flow Rate. Retrieved September 18, 2014 from http://www.sciencebuddies.org/science-fair-projects/project_ideas/HumBio_p032.shtml

Share your story with Science Buddies!

I did this project I Did This Project! Please log in and let us know how things went.


Last edit date: 2013-08-22

Introduction

The human body is made up of several systems that work together to keep the body functioning properly. One of these systems is called the cardiovascular system. The job of the cardiovascular system is to move blood, which contains oxygen and nutrients, throughout the body to the different organs and the brain. The cardiovascular system is made up of the heart, arteries, capillaries, and veins. For the purpose of this project, let us focus on the heart and arteries.

The heart is a muscle that acts as the pump of the cardiovascular system. The heart is divided into the right and the left sides. Each side has two chambers, an atrium and a ventricle. The right side of the heart pumps oxygen-poor blood to the lungs where the lungs deliver oxygen to the blood. The oxygen-rich blood comes back to the left side of the heart into the left atrium and empties into the left ventricle. From there, the heart pumps the blood through the aorta, the largest artery in the body, to supply the organs and the brain with oxygen and other nutrients. Valves separate the atrium and ventricle on each side of the heart. The valves make sure to keep the blood flowing in the right direction. Because the right side and the left side of the heart are not connected, the oxygen-poor blood does not mix with the oxygen-rich blood. The heart muscle itself also needs oxygen to function properly. A network of coronary arteries covers the heart and provides it with oxygenated blood. Watch this video to understand the details of how the heart works.

Human Biology project Mayo clinic video showing how the cardiovascular system works.
This video from the Mayo Clinic discusses in detail how the cardiovascular system functions.

A healthy cardiovascular system is very important to maintain good health. Failing to maintain good cardiovascular health can result in heart disease or atherosclerosis. In atherosclerosis, cholesterol, fatty substances, calcium, and other substances start to build up in the inner lining of an artery. This buildup, called plaque, leads to a narrowing (smaller diameter) of the artery. If a plaque breaks, it can cause a blood clot to start. A blood clot can block blood flow or can travel to a different part of the body. Depending on where the clot occurs, it can cause a heart attack or a stroke. A heart attack or stroke is a very dangerous health problem, but even plaque that stays put can cause issues by contributing to poor blood flow. Poor blood flow can cause chest pains, high blood pressure, shortness of breath during light exercise, leg pain, and loss of oxygen to the brain.

In this life science project, you will make a model of the cardiovascular system and investigate if plaque or narrowing in the arteries affects flow rate. You will make the model with a bucket, valves, and vinyl tubing of different diameters. Does the flow rate depend on the diameter of the tubing? If so, how much does the flow rate change?

Terms and Concepts

  • Cardiovascular
  • Artery
  • Capillary
  • Vein
  • Muscle
  • Pump
  • Atrium
  • Ventricle
  • Aorta
  • Coronary
  • Atherosclerosis
  • Plaque
  • Blood clot
  • Absolute value
  • Magnitude
  • Density
  • Hagen-Poiseuille equation

Questions

  • What causes your heart to beat?
  • What are the four different heart valves?
  • What can happen to your brain if blood doesn't flow to it?
  • What happens to your body during a heart attack?
  • What is plaque made of?
  • What can happen to your legs if there isn't enough blood flow to them?

Bibliography

These websites offer more information about the cardiovascular system and blood flow rate:

Watch these videos to understand how the heart functions and to learn about the different parts of the heart:

This site has a library of medical videos. Watch the videos Atherosclerosis, the Cardiovascular System, and Blood Flow for more information:

Materials and Equipment

  • Plastic bucket, 5 gal with straight sides
  • Drill with 1/4 inch bit and 3/8 inch bit
  • Safety goggles
  • Plastic Quick-Connect stop valve, straight male, 1/4 inch. You can purchase a valve at your local hardware store.
  • Plastic Quick-Connect stop valve, straight male, 3/8 inch. You can purchase a valve at your local hardware store.
  • Plumber's putty
  • Tubing, vinyl, 1/4 inch diameter, 2 foot length. The vinyl tubing must fit into the 1/4 inch valve. You can purchase vinyl tubing at your local hardware store.
  • Tubing, vinyl, 3/8 inch diameter, 2 foot length. The vinyl tubing must fit into the 3/8 inch valve. You can purchase vinyl tubing at your local hardware store.
  • Utility knife
  • Measuring cup, 1 cup volume
  • Permanent ink marker
  • Stopwatch
  • Location with a table
  • Two additional tables (optional)
  • High definition video camera (optional)
  • Tripod (optional)
  • Lab notebook
  • Graph paper

Share your story with Science Buddies!

I did this project I Did This Project! Please log in and let us know how things went.

Experimental Procedure

Building the Model of the Circulatory System

  1. Drill two holes in the bucket. Place each hole 3 inches from the bottom of the bucket. Drill the holes on opposite sides of the bucket from each other.
    1. Use goggles and ask an adult for help when drilling holes in the bucket.
    2. Drill the first hole with the 1/4 inch bit.
    3. Drill the second hole with the 3/8 inch bit.
  2. Insert and screw the threaded male end of the 1/4 inch valve into the 1/4 inch hole in the bucket.
  3. Insert and screw the threaded male end of the 3/8 inch valve into the 3/8 inch hole on the other side of the bucket.
  4. Make sure that the valves are all shut, and then, test to make sure that the valves are not leaking. Fill the bucket with water to a level above the height of the valves. If they are leaking, then use some plumber's putty to seal the leak on the outside of the bucket.
  5. Cut two lengths of tubing with the utility knife. Cut 2 feet of 1/4 inch diameter tubing, and insert it into the free end of the 1/4 inch valve.
  6. Repeat step 5 with the 3/8 inch vinyl tubing and the 3/8 inch valves.
  7. The model is now complete. Leak test the finished model as in step 4. Once the model is leak free, proceed to the next section and start experimenting.

Experimenting with the Circulatory Model

  1. Fill the bucket with water to a level that is above the valves. Mark the level of the water on the outside of the bucket with a permanent ink marker.
  2. Place the model on the table. Ask an adult for help if the bucket is too heavy. Set the bucket so that the 1/4 inch valve and tubing is over the edge of the table. Place the tubing in the measuring cup. If you can't place the measuring cup on the floor without making a puddle, place it on a second table that is lower than the one that the bucket is on. Make sure that the tubing hangs straight down and doesn't get angled or pinched.
  3. If you have a video camera, place it on a table (or tripod) facing the measuring cup. The camera should be close enough that you are able to read the markings on the measuring cup.
  4. When you are ready to start experimenting, turn on the camera.
  5. Now open the valve and start the stopwatch. When the measuring cup is filled with a 1/2 cup of water, turn off the stopwatch and the valve. Record the time in your lab notebook along with the amount of water in the measuring cup.
  6. Repeat step 5 four more times (four more trials for a total of five trials). Refill to the original fill line each time. It is important to repeat your experiments to ensure that your results are reproducible and accurate.
  7. Turn off the camera. Clean up any excess water and pour the water from the measuring cup back into the bucket. Refill the bucket, if necessary, to the mark on the bucket.
  8. Turn the bucket so that the 3/8 inch valve and tubing is over the edge of the table.
  9. Repeat steps 3–7 with the 3/8 inch valve and tubing.
  10. Empty the bucket.

Analyzing Your Data

  1. Now calculate the flow rate for each trial of each diameter of tubing. Calculate the flow rate by dividing the volume of water in the cup, 1/2 cup, by the time it took in seconds to fill the measuring cup to a 1/2 cup. If you used a video camera to film the experiment you can watch the video to get a precise time of when the 1/2 cup was filled.
    1. Figure out how to move frame by frame to retrieve a precise time measurement.
  2. Plot your data on a scatter plot. Can you see any trends in your data?
  3. Average the data for each diameter of tubing. Calculate the percent difference in flow rate between the different diameters of tubing. Equation 1 describes how to calculate the percentage difference in flow rate. Absolute value takes the magnitude of a number. For example, the absolute value of -6 is 6.

Equation 1.

Percent difference (%) =   absolute value |flowrateA - flowrateB|  
flowrateA
× 100
  flowrateA= flow rate at the 3/8 inch valve  
  flowrateB= flow rate at the 1/4 inch valve  
  1. Based on your results, how does a narrowed vessel affect the flow rate of blood? What are the implications for cardiovascular health?

Share your story with Science Buddies!

I did this project I Did This Project! Please log in and let us know how things went.


Variations

  • Does blood pressure affect the flow rate? Experiment with this variable by changing the starting level of the water in the bucket. The pressure at the valve is equal to the density of water multiplied by the difference in height between the surface of the water and the valve.
  • Does the length of the tubing affect flow rate? Experiment with two additional lengths of tubing for both valves.
  • Looking at your results as a whole, can you confirm whether the Hagen-Poiseuille equation is satisfied?

Share your story with Science Buddies!

I did this project I Did This Project! Please log in and let us know how things went.

Ask an Expert

The Ask an Expert Forum is intended to be a place where students can go to find answers to science questions that they have been unable to find using other resources. If you have specific questions about your science fair project or science fair, our team of volunteer scientists can help. Our Experts won't do the work for you, but they will make suggestions, offer guidance, and help you troubleshoot.

Ask an Expert

Related Links

If you like this project, you might enjoy exploring these related careers:

cardiovascular technician attaching electrodes for EKG

Cardiovascular Technologist or Technician

The first leading cause of death in the United States is heart disease, and the third leading cause is stroke. Cardiovascular technologists or technicians are key members of the healthcare teams that are on the front lines of treating heart and blood vessel diseases and conditions. They set up monitors and tests to help physicians diagnose heart or blood vessel problems. Then they work with physicians to treat an identified problem. For example, they might help break up a blockage in an artery going to the heart or brain, or assist in the implantation of a pacemaker. Their work restores vital blood supply to a patient's heart or brain, or reestablishes a normal heart rhythm, allowing patients to liver longer and fuller lives. Read more
female doctor talking to elderly patient

Physician

Physicians work to ease physical and mental suffering due to injury and disease. They diagnose medical conditions and then prescribe or administer appropriate treatments. Physicians also seek to prevent medical problems in their patients by advising preventative care. Ultimately, physicians try to help people live and feel better at every age. Read more
Career hematologist drawing blood

Hematologist

Hematologists are all about blood. They diagnose people with blood disorders and prescribe or administer appropriate treatments. There are many different types of blood disorders, including bleeding disorders and blood cancers. Hematologists also investigate ways to improve diagnosing and treatment of these disorders. Read more
EMT helping patient inside ambulance

Emergency Medical Technicians & Paramedic

Emergency medical technicians and paramedics belong to a group of healthcare workers known as first responders. They are among the first people to respond to an accident or emergency, providing prehospital care for conditions such as heart attacks, strokes, gunshot wounds, childbirth, or falls. Although this work is physically and emotionally demanding, many emergency medical technicians and paramedics enjoy the challenges and the satisfaction of knowing their work is critical in saving lives. Read more

Looking for more science fun?

Try one of our science activities for quick, anytime science explorations. The perfect thing to liven up a rainy day, school vacation, or moment of boredom.

Find an Activity