What effect does caffeine have on human heart rate?
- 10 Adults or more (We want to test as many as possible. Why do you think this is?)
- Mp3 player loaded with relaxing music
- Clock and stopwatch (a cell phone usually has both of these functions)
- Eye mask
- 5 cans of a caffeinated version of a drink
- 5 cans of a non-caffeinated version of the same drink
- Paper and tape
- Spend some time learning how to accurately take a person’s pulse. There are plenty of good resources online that can teach you how. Using a stopwatch, make sure to practise taking somebody else’s pulse until you’re sure you can get an accurate reading every time.
- Mask your drinks using your paper and tape and label each can with a number.
- Make sure that you record whether each number is caffeinated or non-caffeinated in your notebook.
- Arrange a time to test each adult. It will take around 30 minutes to perform the test. Test each person at around the same time of day, in the same circumstances (same chair, same song, etc.). Be sure to test each adult one at a time. Ask each person to refrain from eating or drinking for two hours before the test. Why do you think we want to make sure all of these things are the same from one test to the next?
- Ask each subject what his or her caffeine consumption habits are. Record the subject’s answers on a sheet of paper dedicated to that subject, and be sure to keep your records confidential.
- Have your subject put the mask over his or her eyes. Have the subject put the headphones on, listen to the music, and relax.
- After five minutes have passed, take and record your subject’s starting pulse without disturbing them.
- Provide your subject with a randomly selected drink. Record the drink’s number in your notebook. Ask your subject to drink it as quickly as possible.
- Wait five minutes, and then take and record your subject’s pulse. Continue taking the subject’s pulse at 5-minute intervals until 15 minutes have passed.
- Graph the data you recorded.
- Do people who consume caffeine regularly react to the caffeine? To the placebo? To both? Is there a correlation between habitual caffeine consumption and the change in pulse rate?Try to think of as many questions as you can, and keep an eye out for surprising results. After you are satisfied with your analysis, look up the effects of caffeine on the body and see if your study agrees with what other scientists have found.
The results you get will depend strongly on what subjects you used for your study.
Caffeine is a Stimulant, a class of drugs that increase your heart rate and make you more energetic. However, the effects of caffeine are not identical between subjects. Plenty of people are born with a natural ToleranceTo caffeine, meaning that the caffeine’s effects aren’t so pronounced when such people consume it. People without a natural tolerance may also develop one over time simply by drinking caffeine.
The possibility that certain people may have a tolerance to caffeine while others may not is one example of a Variable—something that has a direct influence on the information we gather. Here’s an example of how this variable might work: you may find yourself testing two people that just happen to be naturally very tolerant to caffeine. If these happened to be the only two people you tested, you may not have seen a significant change in heart rate. This data may have led you to a misleading conclusion about caffeine’s effect on the human body! This is why you were instructed to test as many subjects as possible and why you were told to ask your subjects about their caffeine habits. When you take these steps, you can collect more useful data that lets you control the variable of tolerance by identifying the people that are more likely to have a similar tolerance to the drug.
1. This effect applies to the researchers, too. If researchers know they’re administering a drug as opposed to a placebo, there’s a chance they may look extra carefully for signs that the drug is doing something. This introduces bias into the experiment and can distort the results! A Double-Blind Study is one in which even the people administering the test don’t know what option they’re testing. This helps prevent bias from affecting the study’s results.