The defect length of a corrosion defect in a pressurized ste

The defect length of a corrosion defect in a pressurized steel pipe is normally distributed with nean value 30mm and standard deviation 7.8 mm.

A. What is the probability that defect length is at most 20mm? Less than 20mm?

b. What is the 75th percentile of the defect length distribution-that is, the value that separates the smallest 75% of all lengths from the largest 25%?

c. What\'s is the 15th percentile of the defect length distribution?

d. What values separate the middle 80% of the defect length distribution from the smallest 10% and the largest 10%?

Solution

Normal Distribution
Mean ( u ) =30
Standard Deviation ( sd )=7.8
Normal Distribution = Z= X- u / sd ~ N(0,1)                  
a)
P(X < 20) = (20-30)/7.8
= -10/7.8= -1.2821
= P ( Z <-1.2821) From Standard Normal Table
= 0.0999                  
b)
P ( Z < x ) = 0.75
Value of z to the cumulative probability of 0.75 from normal table is 0.674
P( x-u/s.d < x - 30/7.8 ) = 0.75
That is, ( x - 30/7.8 ) = 0.67
--> x = 0.67 * 7.8 + 30 = 35.2572                  
c)
P ( Z < x ) = 0.15
Value of z to the cumulative probability of 0.15 from normal table is -1.036
P( x-u/s.d < x - 30/7.8 ) = 0.15
That is, ( x - 30/7.8 ) = -1.04
--> x = -1.04 * 7.8 + 30 = 21.9192  

The defect length of a corrosion defect in a pressurized steel pipe is normally distributed with nean value 30mm and standard deviation 7.8 mm. A. What is the p

Get Help Now

Submit a Take Down Notice

Tutor
Tutor: Dr Jack
Most rated tutor on our site