Your work on timer program has been received. We will look at your data later in the context of the entire group's data on this experiment.
It shows how many times you clicked, the continuous clock for each click and then how long between each click.
1 507.1563 507.1563
2 507.3359 .1796875
3 507.5078 .171875
4 507.6875 .1796875
5 507.8672 .1796875
6 508.0469 .1796875
7 508.2109 .1640625
8 508.375 .1640625
9 508.5703 .1953125
10 508.7344 .1640625
11 508.9063 .171875
12 509.0859 .1796875
13 509.2422 .15625
14 509.4219 .1796875
15 509.5859 .1640625
16 509.7656 .1796875
17 509.9375 .171875
18 510.1172 .1796875
19 510.3125 .1953125
20 510.4922 .1796875
21 510.6797 .1875
22 510.8672 .1875
23 511.0625 .1953125
You can take the running total from the end and subtract it from the running time at the top. Once you have that answer you divide by 23. (511.0625-507.1563)/23 = 0.169835
.1796875, 9
.171875, 3
.1640625, 4
.1953125, 3
.15625, 1
.1875, 2
The program is not useless. It gives a relatively close time to what it actually is. The program is done by clicking a button, which then has to send a signal which take a little bit of time which can cause the times to be repeated.
The difference in the numbers is not very large at all. It is pretty much random in that it took less or more time to click on the button. The timer program is consistent because the difference between each interval different but not by a large amount.
7.054688
7.296875
7.585938
6.203125
6.023438
4.742188
9.648438
4.273438
7.945313
7.070313
6.117188
When you breath the fluctuate. When you are just repetitively clicking it is easier to be more consistent.
The TIMER program is capable of determining the time between two events accurately to within about .0001 second. I think this because the numbers go to the ten thousandth place which means that the last number is rounded.
regular breaths time at beginning of inhalation
event number
lock time
ime interval
1
2.72656
2.72656
2
1.14844
.421875
3
7.22656
.078125