Normal distribution - Unitedworld School of Business

2. Most popular continuous probability
distribution is normal distribution.
It has mean μ & standard deviation σ
Deviation from mean x- μ
Z = --------------------------- = --------------
Standard deviation σ
Graphical representation of is called normal
curve

3. Standard deviation( σ )
Standard deviation is a measure of spread
( variability ) of around
Because sum of deviations from mean is
always zero , we measure the spread by
means of standard deviation which is defined
as square root of
∑ (x- μ) 2
∑ (x- xbar) 2
Variance (σ2) = -------------= ----------------
N n-1
σ2 = variance

4. Interpretation of sigma (σ )
1.Sigma (σ ) – standard deviation is a measure of
variation of population
2.Sigma (σ ) – is a statistical measure of the process’s
capability to meet customer’s requirements
3.Six sigma ( 6σ ) – as a management philosophy
4.View process measures from a customer’s point of
view
5.Continual improvement
6.Integration of quality and daily work
7.Completely satisfying customer’s needs profitably

5. Use of standard deviation( σ )
Standard deviation enables us to determine , with a
great deal of accuracy , where the values of
frequency distribution are located in relation to mean.
1.About 68 % of the values in the population will fall
within +- 1 standard deviation from the mean
2.About 95 % of the values in the population will fall
within +- 2 standard deviation from the mean
3.About 99 % of the values in the population will fall
within +- 3 standard deviation from the mean

6. z 0.00 0.01 0.02 0.03 0.04 0.05 0.06 0.07 0.08 0.09
0.0 0.0000 0.0040 0.0080 0.0120 0.0160 0.0199 0.0239 0.0279 0.0319 0.0359
0.1 0.0398 0.0438 0.0478 0.0517 0.0557 0.0596 0.0636 0.0675 0.0714 0.0753
0.2 0.0793 0.0832 0.0871 0.0910 0.0948 0.0987 0.1026 0.1064 0.1103 0.1141
0.3 0.1179 0.1217 0.1255 0.1293 0.1331 0.1368 0.1406 0.1443 0.1480 0.1517
0.4 0.1554 0.1591 0.1628 0.1664 0.1700 0.1736 0.1772 0.1808 0.1844 0.1879
0.5 0.1915 0.1950 0.1985 0.2019 0.2054 0.2088 0.2123 0.2157 0.2190 0.2224
0.6 0.2257 0.2291 0.2324 0.2357 0.2389 0.2422 0.2454 0.2486 0.2517 0.2549
0.7 0.2580 0.2611 0.2642 0.2673 0.2704 0.2734 0.2764 0.2794 0.2823 0.2852
0.8 0.2881 0.2910 0.2939 0.2967 0.2995 0.3023 0.3051 0.3078 0.3106 0.3133
0.9 0.3159 0.3186 0.3212 0.3238 0.3264 0.3289 0.3315 0.3340 0.3365 0.3389

7. 1.0 0.3413 0.3438 0.3461 0.3485 0.3508 0.3531 0.3554 0.3577 0.3599 0.3621
1.1 0.3643 0.3665 0.3686 0.3708 0.3729 0.3749 0.3770 0.3790 0.3810 0.3830
1.2 0.3849 0.3869 0.3888 0.3907 0.3925 0.3944 0.3962 0.3980 0.3997 0.4015
1.3 0.4032 0.4049 0.4066 0.4082 0.4099 0.4115 0.4131 0.4147 0.4162 0.4177
1.4 0.4192 0.4207 0.4222 0.4236 0.4251 0.4265 0.4279 0.4292 0.4306 0.4319
1.5 0.4332 0.4345 0.4357 0.4370 0.4382 0.4394 0.4406 0.4418 0.4429 0.4441
1.6 0.4452 0.4463 0.4474 0.4484 0.4495 0.4505 0.4515 0.4525 0.4535 0.4545
1.7 0.4554 0.4564 0.4573 0.4582 0.4591 0.4599 0.4608 0.4616 0.4625 0.4633
1.8 0.4641 0.4649 0.4656 0.4664 0.4671 0.4678 0.4686 0.4693 0.4699 0.4706
1.9 0.4713 0.4719 0.4726 0.4732 0.4738 0.4744 0.4750 0.4756 0.4761 0.4767

8. 2.0 0.4772 0.4778 0.4783 0.4788 0.4793 0.4798 0.4803 0.4808 0.4812 0.4817
2.1 0.4821 0.4826 0.4830 0.4834 0.4838 0.4842 0.4846 0.4850 0.4854 0.4857
2.2 0.4861 0.4864 0.4868 0.4871 0.4875 0.4878 0.4881 0.4884 0.4887 0.4890
2.3 0.4893 0.4896 0.4898 0.4901 0.4904 0.4906 0.4909 0.4911 0.4913 0.4916
2.4 0.4918 0.4920 0.4922 0.4925 0.4927 0.4929 0.4931 0.4932 0.4934 0.4936
2.5 0.4938 0.4940 0.4941 0.4943 0.4945 0.4946 0.4948 0.4949 0.4951 0.4952
2.6 0.4953 0.4955 0.4956 0.4957 0.4959 0.4960 0.4961 0.4962 0.4963 0.4964
2.7 0.4965 0.4966 0.4967 0.4968 0.4969 0.4970 0.4971 0.4972 0.4973 0.4974
2.8 0.4974 0.4975 0.4976 0.4977 0.4977 0.4978 0.4979 0.4979 0.4980 0.4981
2.9 0.4981 0.4982 0.4982 0.4983 0.4984 0.4984 0.4985 0.4985 0.4986 0.4986
3.0 0.4987 0.4987 0.4987 0.4988 0.4988 0.4989 0.4989 0.4989 0.4990 0.4990
3.1 0.4990 0.4991 0.4991 0.4991 0.4992 0.4992 0.4992 0.4992 0.4993 0.4993
3.2 0.4993 0.4993 0.4994 0.4994 0.4994 0.4994 0.4994 0.4995 0.4995 0.4995
3.3 0.4995 0.4995 0.4995 0.4996 0.4996 0.4996 0.4996 0.4996 0.4996 0.4997
3.4 0.4997 0.4997 0.4997 0.4997 0.4997 0.4997 0.4997 0.4997 0.4997 0.4998

11. SIGMA Mean Centered
Process
Mean shifted
( 1.5)
Defects/
million
% Defects/
million
%
1 σ 317400 31.74 697000 69.0
2 σ 45600 4.56 308537 30.8
3 σ 2700 .26 66807 6.68
4 σ 63 0.0063 6210 0.621
5 σ .57 0.0000
6
233 0.0233
6 σ .002 3.4 0.0003
4

12. Thus , if t is any statistic , then by central limit
theorem
variable value – Average
Z = --------------
Standard deviation or standard error
x- μ
Z = --------------
σ

13. Properties
1. Perfectly symmetrical to y axis
2. Bell shaped curve
3. Two halves on left & right are same. Skewness
is zero
4. Total area1. area on left & right is 0.5
5. Mean = mode = median , unimodal
6. Has asymptotic base i.e. two tails of the curve
extend indefinitely & never touch x – axis
( horizontal )

14. Importance of Normal Distribution
1. When number of trials increase , probability
distribution tends to normal distribution .hence
, majority of problems and studies can be
analysed through normal distribution
2. Used in statistical quality control for setting
quality standards and to define control limits

15. Hypothesis : a statement about the population
parameter
Statistical hypothesis is some assumption or
statement which may or may not be true ,
about a population or a probability
distribution characteristics about the given
population , which we want to test on the
basis of the evidence from a random sample

16. Testing of Hypothesis : is a procedure that
helps us to ascertain the likelihood of
hypothecated population parameter being
correct by making use of sample statistic
A statistic is computed from a sample drawn
from the parent population and on the basis of
this statistic , it is observed whether the
sample so drawn has come from the
population with certain specified
characteristic

17. Procedure / steps for Testing a hypothesis
1. Setting up hypothesis
2. Computation of test statistic
3. Level of significance
4. Critical region or rejection region
5. Two tailed test or one tailed test
6. Critical value
7. Decision

18. Hypothesis : two types
1. Null Hypothesis H0
2. Alternative Hypothesis H1
Null Hypothesis asserts that there is no difference
between sample statistic and population parameter
& whatever difference is there it is attributable to
sampling errors
Alternative Hypothesis : set in such a way that rejection
of null hypothesis implies the acceptance of
alternative hypothesis

19. Null Hypothesis
Say , if we want to find the population mean has
a specified value μ0
H0 : μ = μ0
Alternative Hypothesis could be
i. H1 : μ ≠ μ0 ( i.e. μ > μ0 or μ < μ0 )
ii. H1 : μ > μ0
iii. H1 : μ < μ0
iv. R. A. Fisher “Null Hypothesis is the
hypothesis which is to be tested for possible
rejection under the assumption that it is true

20. 4. level of significance :is the maximum probability ( α ) of
making a Type I error i.e. : P [ Rejecting H0 when H0 is
true ]
Probability of making correct decision is ( 1 - α )
Common level of significance 5 % ( .05 ) or 1 % ( .01 )
For 5 % level of significance ( α = .05 ) , probability of
making a Type I error is 5 % or .05 i.e. : P [ Rejecting H0
when H0 is true ] = .05
Or we are ( 1 - α or 1-0.05 = 95 % ) confidence that a
correct decision is made
When no level of significance is given we take α = 0.05

21. 5.Critical region or rejection region :the value
of test statistic computed to test the null
hypothesis H0is known as critical value . It
separates rejection region from the
acceptance region

22. 6.Two tailed test or one tailed test :
Rejection region may be represented by a
portion of the area on each of the two sides
or by only one side of the normal curve ,
accordingly the test is known as two tailed
test ( or two sided test )
or one tailed ( or one sided test )

23. Two tailed test :where alternative
hypothesis is two sided or two tailed
e.g.
Null Hypothesis
H0 : μ = μ0
Alternative Hypothesis
H1 : μ ≠ μ0 ( i.e. μ > μ0 or μ < μ0 )

24. One tailed test :where alternative
hypothesis is one sided or one
tailed
two types
a. Right tailed test :- rejection
region or critical region lies
entirely on right tail of normal
curve
b. Left tailed test :- rejection region
or critical region lies entirely on
left tail of normal curve

25. Right tailed :
Null Hypothesis
H0 : μ = μ0
Alternative Hypothesis
H1 : μ > μ0
Left tailed :
Null Hypothesis
H0 : μ = μ0
Alternative Hypothesis
H1 : μ < μ0
Right tailed

26. 7.Critical value : value of sample statistic
that defines regions of acceptance and
rejection
Critical value of z for a single tailed ( left
or right ) at a level of significance α is the
same as critical value of z for two tailed test
at a level of significance 2α .

27. Critical value
(Zα )
Level of significance
1 % 5 % 10 %
Two tailed test [Zα ] =
2.58
[Zα ] = 1.96 [Zα ] = 1.645
Right tailed
test
Zα = 2.33 Zα = 1.645 Zα= 1.28
Left tailed test Zα = -
2.33
Zα = -1.645 Zα = - 1.28

28. S.No. Confidence level
(1- α )
Value of confidence
coefficient Z α ( two
tailed test)
1 90 % 1.64
2 95 % 1.96
3 98 % 2.33
4 99 % 2.58
5 Without any
reference to
confidence level
3.00
6
α is level of significance which separates
acceptance & rejection level

29. 8. Decision :
1. if mod .Z < Zα
accept Null Hypothesis
test statistic falls in the region of
acceptance
2. if mod .Z > Zα
reject Null Hypothesis

30. Q1.Given a normal distribution with mean 60 &
standard deviation 10 , find the probability that x
lies between 40 & 74
Given μ= 60 , σ =10
P ( 40 < x < 74 ) = P ( -2 < z< 1.4 ) = P ( -2< z
< 0 ) + P ( 0 < z < 1.4 )
= 0.4772+ 0.4192 = 0. 8964

31. Q2.In a project estimated time of
completion is 35 weeks. Standard
deviation of 3 activities in critical paths
are 4 , 4 & 2 respectively . calculate the
probability of completing the project in
a. 30 weeks , b. 40 weeks and c. 42
weeks

32. Test of significance
Mean
Null –there is no significance difference between
sample mean & population mean or
The sample has been drawn from the parent
population
Deviation from mean xbar- μ
Z = --------------------------- = --------------
Standard Error Standard Error
xbar = sample mean
μ = population mean

33. 1. Standard Error of mean = σ / √ n
When population standard deviation is known
σ = standard deviation of the population
n = sample size
2. Standard Error of mean = s / √ n
When sample standard deviation is known
s = standard deviation of the sample
n = sample size

34. Proprtion
Null –there is no significance difference between
sample proportion & population proportion or
The sample has been drawn from a population
with population proportion P
Null hypothesis H0 : P = P0 where P0 is
particular value of P
Alternate hypothesis H1 : P ≠ P0 ( i.e. P > P0 or
P < P0 )

35. P*(1-P)
Standard error of proportion (S.E.(p)) = √ ------------
n
Deviation from proprtion p-P
Test statistic Z = --------------------------- = --------
Standard Error (p) S.E.(p)

36. Q3. a sample of size 400 was drawn and
sample mean was 99. test whether this
sample could have come from a normal
population with mean 100 & standard
deviation 8 at 5 % level of significance

37. Ans. Given xbar = 99 , n = 400 μ = 100 , σ = 8
1.Null hypothesis sample has come from a normal
population with mean = 100 & s.d. = 8
Null hypothesis H0 : μ = 100
Alternate hypothesis H1 : μ ≠ μ0 ( i.e. μ > μ0 or μ < μ0 )
Two tail test so out of 5% , 2.5 % on each side ( left hand &
right hand)
2.calculation of Test statistic
Standard error (s.e.) of xbar = σ / √ n = 8/√ 400 = 8/20= 2/5
xbar- μ 99-100
Test statistic Z = ----------- = -------- = -5/2 =- 2.5
S.E. 2/5

38. Mod z = 2.5
3. level of significance 5 % i.e.value of α = .05 ( hence ,
level of confidence = 1- α = 1-0.05 = 0.95 or 95%)
4. Critical value (since it is Two tail test so out of 5% , we
take two tails on each side i.e.2.5 % on each side = 0.025 (
left hand & right hand)
= read from z –table value corresponding to area = 0.5
-0.025 = 0.4750
( 0.4750 on both sides i.e. 2* 0.4750 = 0.95 area which
means 95% confidence)
= value of z corresponding to area is 1.96

39. 5. Decision – since mod value of z is more than
critical value
Null Hypothesis is rejected & alternate hypothesis
is accepted
Sample has not been drawn from a normal
population with mean 100 &s.d. 8

40. Q4. the mean life time of a sample of 400
fluorescent light tube produced by a
company is found to be 1570 hours with a
standard deviation of 150 hrs. test the
hypothesis that the mean life time of the
bulbs produced by the company is 1600 hrs
against the alternative hypothesis that it is
greater than 1600 hrs at 1 &% level of
significance

41. Ans. Given xbar = 1570 , n = 400 μ = 1600
, standard deviation of sample mean s= 150
= 8
Null hypothesis : mean life time of bulbs is
1600 hrs
i.e. Null hypothesis H0 : μ = 1600
Alternate hypothesis H1 : μ > 1600
i.e. it is a case of right tailed test
2.calculation of Test statistic
Standard error (s.e.) of xbar = s / √ n
150/√ 400 = 150/20= 7.5

42. xbar- m 1570-1600
Z = ----------- = -------------- = -30/7.5= - 4
S.E. 7.5
Mod z = 4
3. level of significance 1 % i.e.
value of α = .01
( hence , level of confidence = 1- α = 1-0.01 =
0.99 or 99%)

43. 4. Critical value (since it is right tail test so out of 1% ,
we take 1 % only one side
= 0.01 on right hand)
= read from z –table value corresponding to area = 0.5 -0.01
= 0.4900 ( 0.49 on one side together with +0.5 makes total
0.99 which means 99% confidence)
= value of z ( corresponding to area 0 .49 is 2.33
5. Decision – since mod value of z is more than critical value
Null Hypothesis is rejected & alternate hypothesis is
accepted
Hence mean life time of bulbs is greater than 1600 hrs

44. Q5.in a sample of 400 burners there were 12
whose internal diameters were not within
tolerance . Is this sufficient to conclude that
manufacturing process is turning out more than
2 % defective burners. Take α = .05

45. Given P= 0.002 Q= 1-P =1-0.02 =0. 98
& p= 12/400 = 0.03
Null hypothesis H0 : P = process is under control
P ≤ 0.02
Alternate hypothesis H1 : P > 0.02
Left tail test
Calculation of Standard error of proportion
P*(1-P) 0.02*0.98
(S.E.(p)) = √ ------------ = √--------------
n 400

46. Deviation 0.03-0.02 0.001
Z = ----------- = ------------ = -------- = 1.429
S.E.(p) √ (0.02*0.98) / 400 0.007
3. level of significance 5 % i.e.value of α = .05
( hence , level of confidence = 1- α = 1-0.01 = 0.95
or 95%)

47. 4. Critical value (since it is left tail test so out of
5% , we take full 5 % only one side = 0.05 on left
hand) = read from z –table value corresponding to
area = 0.5 -0.05 = 0.4500 ( 0.45 on one side
together with +0.5 makes total 0.95 which means
95% confidence) = value of z ( corresponding to
area 0 .45 is 1.645
5. Decision – since mod value of z is less than
critical value
Null Hypothesis is accepted
Hence process is not out of control

48. Q6. a manufacturer claimed that at least 95 %
of the equipment which he supplied is
conforming to specifications. A examination of
sample of 200 pieces of equipment revealed
that 18 were faulty. Test his claim at level of
significance i.) 0.05 ii.) 0.01

49. Given P= 0.95 Q= 1-P =1-0.95 =0. 05
n= 200
p= 18/200 = - (200-18) / 200 = 182/200 =
0.91
Null hypothesis H0 : P = process is under
control P = 0.95
Alternate hypothesis H1 : P < 0.95
Left tail test

50. P*(1-P) 0.95*0.05
S.E.(p) = √ ------------ = √---------
n
200
0.91-0.95 -0.04
Z = ------------ = --------- = -2.6
√ (0.02*0.98) / 200 0.0154

51. 3a. level of significance 5 % i.e.value of α = .05 ( hence ,
level of confidence = 1- α = 1-0.05 = 0.95 or 95%)
4a. Critical value (since it is right tail test so out of 5% , full
5 % on one side = 0.05 on right hand) = read from z –table
value corresponding to area = 0.5 -0.05 = 0.4500 ( 0.45 on
one side together with +0.5 makes total 0.95 which means
95% confidence) = value of z ( corresponding to area 0 .45
is 1.645)
5a. Decision – since mod value of z is more than critical
value
Null Hypothesis is rejected
Manufacturer’s claim is rejected at 5 % level of significance

52. 3b. level of significance 1 % i.e.value of α = .01
( hence , level of confidence = 1- α = 1-0.01 =
0.99 or 99%)
4b. Critical value (since it is right tail test so out
of 1% , we take 1 % only one side = 0.01 on right
hand) = read from z –table value corresponding
to area = 0.5 -0.01 = 0.4900 ( 0.49 on one side
together with +0.5 makes total 0.99 which means
99% confidence) = value of z ( corresponding
to area 0 .49 is 2.33

53. 5b. Decision – since mod value of z is
more than critical value
Null Hypothesis is rejected
Manufacturer’s claim is rejected at 1 %
level of significance

54. Campus Overview
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Floor, Plot G1,
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55. Thank You