An investigation to show the difference in heart rates before and during intense exercise. Aim: The aim of the investigation was to discover how the heart rate varied with the intensity of exercise. The heart rate is a term describing the regularity of the cardiac cycle. The heart rate is the amount of times it contracts (beats) in a unit of time, nearly always per minute. At rest the adult female’s heart rate regulates 75 bpm (beats per minute) but this varies between people.
If the heart rate is measured before, during and after exercise, results will prove that the number of beats per minute is greater during exercise than when you’re at rest; this is because the heart is working vigorously allowing the body to supply blood to the working muscles more quickly. The nervous system monitors the body and signals your heart to beat faster in response to increased activity. The blood is rushing around the heart to get rid of deoxygenated blood and carries back oxygenated blood from the lungs.
The atrium and ventricle valves open by force circulating the blood going around the body. The time taken to recover is the amount of time it takes a person’s heart rate to go back to its resting rate. Predictions It has been predicted that the more energy used by a person during exercise, the more increase cardiac output. Cardiac output cannot increase indefinitely, primarily because of the available filling time shortens as the heart rate increases. Another prediction that has been made is that the heart rate will depend on the pace the individuals are stepping at.
The quicker the pace of the exercise the more the heart rate increases which would mean the longer it takes the individuals heart rate to go back to normal because they are using more energy. Before you begin to exercise, your heart rate increases slightly due to a general rise in sympathetic activity as you think about the work out ahead. When you exercise your muscles tend to move more energetically, than when you are at rest. Their metabolic rate increases. They need more energy, so they produce more of the chemical energy molecule ATP.
ATP stands for adenosine triphosphate. You need oxygen to produce ATP so the more ATP you produce, the more oxygen you need.
- Two steppers
- Two Stop watches
- Writing utilities
- 2 pairs of trainers
Method of experiment
The mini exercise will be done at three different intervals and the minutes will increase each time they exercise. During the exercise it has been decided that the participants both will do the stepping workout. The picture below will demonstrate how the exercise will be done.
They then will do this for one minute, wait till their carotid pulse is back to its rest rate and then for 2 minutes, again wait for the pulse to fall to its normal rate and then carry this out for the 3rd and last time for 3 minutes. START| FINISH| Google images Google images | | Step 1: You start off by measuring the rest rate of the two volunteers for 10 seconds and then timing the figure by 6 to find out the beats per minute. (15 * 6= 90 beats per minute) Step 2: The contestants then start the activity for 1 minute.
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After completing the first 1 minute of the exercise the carotid pulse is then checked until results show hear rate has gone back to its average. Step 3: This is repeated again for the 2nd time. The volunteers do the exercise for 2 minutes. Again, the results are recorded and time it has taken the individuals heart rate to go back to its normal rate. Step 4: The process is repeated for the third time. However, this time it is done for 3 minutes to see how the heart beat varies with intensity of exercise.
| Rest rate| 1 minute| Time taken to recover| 2 minutes| Time taken to recover| 3 minutes| Time taken to recover| Shazanah| 90 Bpm| 132 Bpm| 3 minutes| 144 Bpm| 13 minutes| 150 Bpm| 15 minutes| Maseera| 90 Bpm| 132 Bpm| 3minutes| 150 Bpm| 13 minutes| 156 Bpm| 15minutes| Results: Bpm (Beats per minute) Discussion The results are indicting that Shazanah’s and Maseera’s resting rate was the same before working out. After exercising for 1 minute on the stepper, results showed there was no difference in the heart rate of both contestants.
However, the second time when the activity was carried out for two minutes, Maseera’s heart rate increased more than Shazanah’s although they were doing the same exercise at the same stepping pace. This could be because Maseera’s body is used to the demand of energy whereas Shazanah doesn’t exercise much and her body is not used to the change. Maseera eats Fibre-rich foods like oats, whole grains beans and citrus which helps the system flush out cholesterol.
On the other hand Shazanah likes eating her junk food which builds fatty deposits which causes her heart rate to go so high because of the demand. Both of the contestant’s height and weight was different too which could be another reason why the heart rate is different. Other reasons why Maseeras heart rate may have increased more than Shazanas could be because due to dehydration. Results show even though Maseeras heart rate is higher than Shazanahs, it recovers more quickly. The recovering heart rate is the number of beats per minute the heart performs after exercise.
This value is an important measure of cardiovascular fitness, since people who return to resting heart rate faster have a more efficient heart and are at lower risk of cardiovascular disease and mortality. Conclusion The predictions that were previously made are supposed by the data. The more energy a person is using during exercise, the more the cardiac output increases. The second prediction, the faster the pace of the exercise the more the heart rate increases. This depends on how much the individual’s body is used to exercise regimes.
If this experiment was to be repeated, I would make sure that there is someone to assist me, means that the results will be more accurate. For example the time to recover, if there was another person they would get different results because they would be only concentrating on one person at a time.
- Martini and Bartholomew (2012). Fundamentals of Anatomy and Physiology Fourth edition. 9th edition. Pearson Benjamin Cummings, London.
- Michael J. Farabee, Ph. D. (2006). Online biology book. Available: http://www. emc. maricopa. edu/faculty/farabee/BIOBK/BioBookTOC. html. Last accessed 16 Feb 2013.
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Experiment to Determine How Heart Rate is Affected by Exercise
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Throughout this investigation, I will be conducting a number of experiments to help solve whether or not heart rate is affected by exercise. My aim is to identify the difference of every volunteer’s heart rate and take down how old they are so I can evaluate whether or not the age of a person make a difference in their bpm (beats per minute).
Many people know when you exercise for long periods of time; your breathing becomes more shallow and quick. The main human organ system used when exercising is the respiratory system. There are two types of respiration your body can carry out, aerobic, with oxygen, and anaerobic, without. The reason for getting tired from exercise is because when the body runs out of the oxygen it needs, anaerobic…show more content…
The exercise I have chosen to do throughout this investigation is skipping (jumping). The reason I have chosen this specific activity is because I think it will produce more interesting results than a basic exercise, such as running.
I managed to gather a total of 10 people to help conduct my experiment. Four people for year 9, three for year 7 and three for sixth form. The reason I have chosen at least three people per age group is because it is the smallest number of people you can have to find an accurate average. As said, I have chosen four people for the year 9 age group. This is because the heart rates of the first original three people varied far more than in the other two groups. I then decided to bring a fourth person so they could help justify my results and show they are as valid as possible.
There are three variables in my experiment. The amount of time, the pulse rate and the age of the people. I asked my volunteers to skip for five short but different periods of time. These time periods varied from 30 seconds to 2 and a half minutes. I asked the people who had volunteered to jump for the given time, and straight after jumping, count their pulse rate for 20 seconds (which was timed) and I would then multiply it by three, to give a total of 60 secind/1 minute.
You can see the results fit very well with what was expected to occur. You could see that the heart rate was increasing the