1. Some Continuous Probability Distributions
Tenth Lecture
Some Continuous Probability Distributions

2. Normal Distribution
Definition: The density of the normal random variable X, with mean m and variance σ2 , is Where And

6. Some properties of the normal curve:
The mode, which is the point on the horizontal axis the curve is a maximum, occurs at x= m.
The curve is symmetric about a vertical axis through the mean.
The curve has its points of inflection at
is concave downward if and is concave upward otherwise.

7. The normal curve approaches the horizontal axis asymptotically as we proceed in either direction away from the mean.
The total area under the curve and above the horizontal axis is equal to one.

8. The standard normal distribution
Definition: The distribution of a normal random variable with mean 0 and variance 1 is called a standard normal distribution.

9. P(Z<-2.43)

10. Areas under the Normal Curve
Example (1):
Given a standard normal distribution, find the area under the curve that lies
To the right of z = 1.84=P(z > 1.84) = 1 - P(z < 1.84) = =
Between z= and z= 0.86

11. Example (2)
Given a standard normal distribution, find the value of k such that
P(Z > k)= , and
P(k < Z < -0.18)=

12. Using the normal curve in reverse
Example (3)
Given a normal distribution with m = 40 and
, find the value of x that has
45% of the area to the left, and
14% of the area to the right.

13. Application of the Normal Distribution
Example (4) A certain type of storage battery lasts, on average, 3.0 years with a standard deviation of 0.5 years. Assuming that the battery lives are normally distributed find the probability that a given battery will last less than 2.3 years.

14. Normal Approximation to the Binomial
the relationship between the binomial and normal distribution is the binomial distribution is nicely approximated by the normal in practical problems. We now state a theorem that allows us to use areas under the normal curve to approximate binomial properties when n is sufficiently large.

15. Theorem:
If X is a binomial random variable with mean m=np and variance s2=npq then the limiting form of the distribution of
as n  is the standard normal distribution 11(z; 0,1).

16. To illustrate the normal approximation to the binomial distribution, we first draw the histogram for b(x; 10,0.5) and then superimpose the particular normal curve having the same mean and variance as the binomial variable X. Hence we draw a normal curve with
m = np = (10)(0.5) = 5, and s2 = npq = (10)(0.5)(0.5) = 2.5.

17. P(X = 4) = b(4; 10,0.5) =
which is approximately equal to the area of the shaded region under the normal curve between the two ordinates
x1 = 3.5 and x2 = Converting to z values, we have:
and

18. This agrees very closely with the exact value of

19. Definition:
Let X be a binomial random variable with parameters n and p. Then X has approximation to approximately a normal distribution
with m = np and s2 = npq = np(l — p) and
and the approximation will be good if np and n(1 —p) are greater than or equal to 5.

20. Example (5):
The probability that a patient recovers from a rare blood disease is 0.4. If 100 people are known to have contracted this disease, what is the probability that less than 30 survive?
Solution:
Let the binomial variable X represent the number of patients that survive. Since n = 100, we should obtain fairly accurate results using the normal-curve approximation with
m = np=(100)(0.4)=40, and
we have to find the area to the left of x =29.5.The z value corresponding to 29.5 is
Hence:

21. Example (6):
A multiple-choice quiz has 200 questions each with 4 possible answers of which only 1 is the correct answer. What is the probability that sheer guesswork yields from 25 to 30 correct answers for 80 of the 200 problems about which the student
has no knowledge?
Solution:
The probability of a correct answer for each of the 80 questions is p = 1/4.
If X represents the number of correct answers due to guesswork, then
Using the normal-curve approximation with m =np=(80)(0.25)=20 , and

22. we need the area between x1 = 24. 5 and x2 = 30. 5
we need the area between x1 = 24.5 and x2 = The corresponding z values are
and
The probability of correctly guessing from 25 to 30 questions is given by

23. Chi-Squared Distribution:

24. F-Distribution:

25. t-Distribution:

26. Good luck