In this lab experiment; the objective of the lab is to teach
the statistics of the Anthropometric, and the measurement of the anthropometric
plus the characteristics of the anthropometric.
Introduction of anthropometric statistics
Anthropometric statistics refer to the collection of the
measurable physical dimension as well as the proportions of the human body. The
Use of the Anthropometric is various fields, for examples forensics along with
the physical anthropology on the behalf of the long time. The term Anthropometry
is derived from the two Greeks words that are the anthropos, means “man”and the
metros, means “measurements”. So that the anthropometry is the measurements of
the human dimensions, like the measurements of the height, size of the human
fingernail. All the anthropometric tables present the value which is Statistical
in nature .Whereas the statistical term is greater than the accuracy of the
confidence in the measured values.
Procedure of anthropometric statistics
In this lab experiment, work in the team of two members. First
of all calculate the anthropometric characteristics of at least 20 peoplelike,height,
weight, biceps and the forearm, circumference, hand breadth and the grip strength.
The grip strength can also calculated through the Jammer Hand of Dynamometer by
the participants that is seated there elbow through the side of the right angle
as well as the neural wrist positions. The table of the grip strength is shown
in the results section;gather the anthropometric characteristics which are
different for our population. Explain the population age, education, gender as
well as ethnicity. Measure the mean and standard deviation of your population
for each anthropometric characteristic. Suppose the 5th and the 95thpercentile
for the population of every anthropometric characteristic. By suing the 5th, 50th,
and the 95th% weight of the population, suppose the weight of head, upper arm
and the hand .Comparison of the population with the US adult’s civilian population
as shown in the table 2.By using the regression analysis calculate the
anthropometric characteristics which are measured the best grip strength.
Results /Tables of anthropometric statistics
Table 1: Grip strength
Hand
|
Gender
|
5th percentile
|
Standard deviation
|
Group
|
R
|
M
|
48.2
|
9.14
|
Army Personal
|
R
|
M
|
47.8
|
8.18
|
Air force air crewmen
|
L
|
M
|
45.0
|
7.64
|
Air forcerated officers
|
L
|
M
|
44.6
|
9.55
|
Army personal
|
Pref
|
M
|
46.6
|
7.64
|
Air force rated officers
|
Table 2:
|
5th
|
50th
|
95th
|
Standard devi
|
female
|
male
|
female
|
male
|
female
|
male
|
female
|
male
|
Height (above floor)
|
|
|
|
|
|
|
|
|
Stature height
|
152.78
|
164.69
|
162.94
|
175.5
|
173.7
|
186.6
|
6.36
|
6.68
|
Eye height
|
141.52
|
152.82
|
151.61
|
163.3
|
162.1
|
174.2
|
6.25
|
6.57
|
Shoulder height
|
124.09
|
134.16
|
133.3
|
144.2
|
143.2
|
154.5
|
5.7
|
6.20
|
Elboe height
|
92.63
|
99.52
|
99.79
|
107.25
|
107.4
|
115.2
|
4.48
|
4.81
|
Wrist height
|
72.79
|
77.79
|
79.0
|
84.65
|
85.51
|
91.52
|
3.86
|
4.15
|
Crotch height
|
70.02
|
76.44
|
77.41
|
83.72
|
84.58
|
91.64
|
4.41
|
4.62
|
The grip strength adjusted for the height age, satisfied by
sex and country
And grip strength is age, height satisfied by ethnicity
Conclusion of anthropometric statistics
It is concluded that, in this lab experiment students leant
the about the anthropometric characteristic .And the statistic of the anthropometric
with the anthropometric, measurements. The data of the anthropometric is very
important because the athlete understands body size with the important factors.