Tristar confectionary industry has two different production units to produce their popular biscuit, which comes in the package they claim to be 200gm. The line manager collected 45 samples from production unit land 52 samples from production unit 2 for the analysis. The historical data shows that the average population weight and the standard deviation of product from unit 1 are 201 gm and 3gm respectively. However, for the samples from unit 2, these statistics are 196 gm and 2.5gm respectively. Based on the available data calculate the probability that the difference in average weight between the product of unit 1 and unit 2: a Exceeds 6 gm. b. Lies in between 5.0 C. Assume that the average population weight and standard deviation in unit 2 is 195 gm and 4 gm (instead of 196 gm and 2.5 gm) respectively and the company will close unit 2 if the difference in the weight of product between unit 1 and unit 2 exceed 6.5 gm. Provided that other statistics remain same, what is the probability that the company will close unit 2? gm to 7.0 gm.

A First Course in Probability (10th Edition)
10th Edition
ISBN:9780134753119
Author:Sheldon Ross
Publisher:Sheldon Ross
Chapter1: Combinatorial Analysis
Section: Chapter Questions
Problem 1.1P: a. How many different 7-place license plates are possible if the first 2 places are for letters and...
icon
Related questions
Topic Video
Question
04
Tristar confectionary industry has two different production units to produce their popular biscuit
which comes n the package they claim to be 200gm. The line manager collected 45 samples from
production unit land 52 samples from production unit 2 for the analysis. The historical data shows
that the average population weight and the standard deviation of product from unit I are 201 gm
and 3gm respectively Howeve, for the samples from unit 2, these statistics are 196 gm and 2.5gmn
respectively. Based on the available data calculate the probability that the difference in average
weight between the product of unit 1 and unit 2
a Exceeds 6 gm.
b. Lies in between 5.0 gm to 7.0 gm.
C. Assume that the average population weight and standard deviation in unit 2 is 195 gm and
4 gm (instead of 196 gm and 2.5 gm) respectively and the company will close unit 2 if the
difference in the weight of product between unit 1 and unit 2 exceed 6.5 gm. Provided that
other statistics remain same, what is the probability that the company will close unit 27
Transcribed Image Text:04 Tristar confectionary industry has two different production units to produce their popular biscuit which comes n the package they claim to be 200gm. The line manager collected 45 samples from production unit land 52 samples from production unit 2 for the analysis. The historical data shows that the average population weight and the standard deviation of product from unit I are 201 gm and 3gm respectively Howeve, for the samples from unit 2, these statistics are 196 gm and 2.5gmn respectively. Based on the available data calculate the probability that the difference in average weight between the product of unit 1 and unit 2 a Exceeds 6 gm. b. Lies in between 5.0 gm to 7.0 gm. C. Assume that the average population weight and standard deviation in unit 2 is 195 gm and 4 gm (instead of 196 gm and 2.5 gm) respectively and the company will close unit 2 if the difference in the weight of product between unit 1 and unit 2 exceed 6.5 gm. Provided that other statistics remain same, what is the probability that the company will close unit 27
Expert Solution
steps

Step by step

Solved in 7 steps

Blurred answer
Knowledge Booster
Hypothesis Tests and Confidence Intervals for Means
Learn more about
Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, probability and related others by exploring similar questions and additional content below.
Similar questions
  • SEE MORE QUESTIONS
Recommended textbooks for you
A First Course in Probability (10th Edition)
A First Course in Probability (10th Edition)
Probability
ISBN:
9780134753119
Author:
Sheldon Ross
Publisher:
PEARSON
A First Course in Probability
A First Course in Probability
Probability
ISBN:
9780321794772
Author:
Sheldon Ross
Publisher:
PEARSON