subject
Mathematics, 08.03.2021 19:40 ayoismeisalex

A decision-maker has made the following pair-wise comparison matrix of 4 factors that is not sufficiently consistent. Use the rank order of the confidence for the 6 off-diagonal pairwise comparisons given at the side of the matrix to make the matrix totally consistent. A B C D BvC (highest confidence)
A 1 2 3 4 AvD
B 1 1/3 1/5 AvC
C 1 3 CvD
D 1 BvD
AvB (lowest confidence)
You need to show only the final totally consistent matrix. What are the values of the largest eigenvalue and the consistency index

ansver
Answers: 3

Another question on Mathematics

question
Mathematics, 21.06.2019 13:20
Which statement explains how you could use coordinate geometry to prove that quadrilateral abcd is a parallelogram? -5 -4 -3 -2 -1 t 1 2 3 4 prove that all sides are congruent and have slopes that are opposite reciprocals prove that segments ad and ab are congruent and parallel prove that opposite sides are congruent and have equal slopes prove that segments bc and cd are congruent and parallel
Answers: 1
question
Mathematics, 21.06.2019 17:40
Which basic geometric term has no width, no length, and no thickness? line b. point c. angle d. plane
Answers: 2
question
Mathematics, 21.06.2019 22:30
What is the least common multiple for 6 and 8? what is the least common multiple for 4 and 12 ? what is the least common multiple for 11 and 12? what is the least common multiple for 3 and 6?
Answers: 1
question
Mathematics, 22.06.2019 00:00
One of the complementary angles is 4 degrees mor than the other. find the angles (recall that complementary angles are angles whose sum is 90 degrees.) which of the following can not be used to solve the problem if x represents one of the angles? a. 2x-4=90 b. 2x+4=90 c. x+4=90
Answers: 1
You know the right answer?
A decision-maker has made the following pair-wise comparison matrix of 4 factors that is not suffici...
Questions
question
English, 17.09.2021 17:30
question
Arts, 17.09.2021 17:30
question
English, 17.09.2021 17:30
question
Mathematics, 17.09.2021 17:30