H. E. Mann, Incorporated

Shirt Bands,

Shirt Bands,

Shirt-band Length

Less 3

Centimeters

Range of Neck Sizes for Given

Inches

Centimeters

Shirt Sizes, Centimeters

30.02

29.4-30.69

I3h'

34-29

31.29

30.7-31.89

35-56

32.56

3i-«^33.i9

14V2

36.83

33-83

33.2-34.49

38.10

35-10

34-5-35-69

15 W

39.37

36-37

35-7-36.99

40.64

37.64

37.0-38.29

16' 2

41.91

38.91

38.3-39.49

43.18

40.18

39-5-40-79

17'2

44-45

41.45

40.8-42.09

45.72

42-72

42.1-43.39

Brown, Bifii;hiiiii. uiul Tcninomcroff, "Lal>oriitory HandtKwk of Statiitical Mcthodt," McGraw-Hill, 1431.

lll=lll=lll=lll=lll

OGIVE AND LORENZ CHARTS

TABLE A.

Determination of Number of Shirts

H. B. Mann, Incorporated

Shirt

Upper Limit of

Normal Cumulative Frequency Reading, Percent of Total*

Normal Noncumulative

Number of Shirts

Bands,

Shirt Band Range

Frequency,

Basis,

Inches

Centimeters

Per Cent of

100,000

Total Centered

Shirts

»3

30.7

o.at

13M

I.O

o.5t

33-2

5-4

4-4

4,400

14H

34-5

19.0

13.6

13.600

35-7

25.0

25,000

15H

72.1

28.0

28,000

38.3

90.6

18.5

18,500

i6i.i

39-5

98.0

8.4

8,400

40.8

i.ot

1,000

17H

42.1

o.3t

o.it

43-4

100,000

* This column has been read from graph.

t Frequencies at extreme ends of the curve cannot be determined from this probability paper. Marked values have been roughly estimated to make the total approach 100%.

Brown. Bingham, and Temnomeroff, ■Laboratory Handbook of Statistical Methods," McGraw-Hill. lOJl.

The three tables on this page and page 334, and 333B were used in a hypothetical case to figure out how to distribute 100,000 shirts according to neck sizes. The column at the extreme right of the table above gives the distribution as determined by the use of probability paper.