To measure the pulse rate and blood pressure of people before and after the use of treadmill and observe the change based on age group and amount of exercise they take. Done by: Rutvi Nandani Pooja Jasani
HYPOTHESIS According to the information we found out after research in the internet and consulting a few doctors we found out that, Athletes will have low blood pressure and low pulse rate and non athletes will have high blood pressure and high pulse rate. As the age increases, blood pressure and pulse rate increases. Hence, people falling under age of years, will have least blood pressure compared to other groups and blood pressure will slowly increase and will be highest in people falling under age group of years and they will have more pulse rate when compared to other age groups!
MATERIALS REQUIRED Treadmill Towel Water Sphygmomanometer-uncertainty of the instrument we used for the project is +/-1 ( least count of the instrument).
VARIABLES Independent variable- people of different age group. Dependent variable- blood pressure and pulse rate. Controlled variable- 1.Time taken to run on treadmill( 3 minutes). 2.Type of sphygmomanometer ( digital).
PROCEDURE First of all we made a list of 10 athletes and 10 non- athletes for each age group (independent variable) which made a total of 80 people including both athletes and non-athletes. Then they were further divided into equal number of males and females to get the proper ratio which includes 5 males and 5 females in each group. Everyday a few students from our school were taken to gym and we recorded their initial blood pressure and pulse rate (dependent variable) at rest.
While recording the blood pressure and pulse there are many precautions which must not be overlooked. They are: ● the instrument must be kept at the heart level. ● the person should be at rest for some time and they must not move or talk during the process of measuring the data. ● second hand should be used to give support to the other hand where the instrument is fit.
Then they were asked to run on treadmill for three minutes (controlled variable) and again their blood pressure and pulse were measured. We followed the same procedure for all age groups and then compared the data with the hypothesis. Then we created the graphs to know the difference in dependent variable before and after exercise and also to know whose blood pressure and pulse is more than the other.
GRAPHS WITH INTERPRETATION
Graph showing mean average and error bars of athletes years.
Graph showing standard deviation of athletes years. SYSTOLICDIASTOLI C PULSE T TEST E E-09
Graph showing mean average and error bars of non athletes years
Graph showing standard deviation of non athletes years. SYSTOLICDIASTOLICPULSE T TEST
Graph showing mean average and error bars of athletes years.
Graph showing standard deviation of athletes years. SystolicDiastolicpulse T Test E-09
Graph showing mean average and error bars of non athletes
Graph showing standard deviation of non athletes years. SYSTOLICDAISTOLICPULSE T Test
Graph showing mean average and error bars of athletes
Graph showing standard deviation of athletes SYSTOLICDIASTOLICPULSE T Test E-05
Graph showing mean average and error bars of non athletes years.
Graph showing standard deviation of non athletes years. SYSTOLICDIASTOLICPULSE T Test
Graph showing mean average and error bars of athletes years.
Graph showing standard deviation of athletes years. SYSTOLICDIASTOLICPULSE T Test E-07
Graph showing mean average and error bars of non athletes years.
Graph showing standard deviation of non athletes years. SYSTOLICDIASTOLICPULSE T Test E-09
CONCLUSION My data clearly supports the hypothesis. My data shows that the athletes have low blood pressure and low pulse rate compared to the non athletes of same age group which is clearly seen from the graphs. When the data is compared between two different age groups, it is clearly seen that as the age increases, the blood pressure increases. I saw a specific trend in the change in blood pressure and pulse rate before and after exercise.
The systolic value increases by a 1-5 mm of mercury and diastolic decreases by 1-2 mm of mercury or remains the same. The pulse rate shows a tremendous increase of around units (beats per minute). This change is same for all groups. ● Another thing I observed is that the athletes have a low pulse rate and after exercise their pulse rate comes back to normal in a very small amount of time where as non athletes take time to get their pulse back to the normal. A support to this is given by the T-Test which shows that diastolic value is not significantly different and pulse is significantly different in all the graphs. Systolic value is significantly different in few graphs and not significantly different in few.
LIMITATIONS The digital instrument which we used had errors so sometimes the readings came wrong. Manual sphygmomanometers are more accurate than the digital ones. As the age increases, pulse rate should increase but in some cases we got a low pulse rate due to errors in instrument or human errors.