BBA Management Online Courses

Books:

Apps:

Free Probability and Counting Rules Multiple Choice Questions (MCQ Quiz) with Answers (Probability and Counting Rules MCQ PDF Book) download to learn statistics online courses. Practice Introduction to Probability Multiple Choice Questions and Answers (MCQs), Probability and Counting Rules quiz answers PDF for business certifications online. The Probability and Counting Rules MCQ App Download: Free learning app for probability rules, multiplication rules of probability, types of events test prep for online business administration courses.

The MCQ: According to combination rule, if the total number of outcomes are 'r' and distinct outcome collection is 'n' then combinations are calculated as; "Probability and Counting Rules" App Download (Free) with answers n! ⁄ r!(n - r)!, n! ⁄ r!(n + r)!, r! ⁄ n!(n - r)! and r! ⁄ n!(n + r)! for business certifications online. Study probability and counting rules quiz questions, download Google eBook (Free Sample) for general business degree online.

Probability and Counting Rules MCQs: Questions and Answers

MCQ 1: According to combination rule, if the total number of outcomes are 'r' and distinct outcome collection is 'n' then combinations are calculated as

1. n! ⁄ r!(n - r)!
2. n! ⁄ r!(n + r)!
3. r! ⁄ n!(n - r)!
4. r! ⁄ n!(n + r)!

MCQ 2: The method of counting the outcomes in which the number of outcomes are determined while considering the ordering is classified as

1. intersection combinations
2. union combinations
3. listed combination
4. permutations

MCQ 3: The method of counting the outcomes in which the number of outcomes are determined without taking care of the arrangement order is classified as

1. listed combinations
2. union combinations
3. intersection combination
4. unlisted combinations

MCQ 4: Considering the combination rule of counting the outcome, the value of 5! Is

1. 5
2. 120
3. 24
4. 20

MCQ 5: If a brown sack consists of 4 white balls and 3 black balls then the probability of one randomly drawn ball will be white is

1. 4 ⁄ 7
2. 1 ⁄7
3. 4 ⁄ 4
4. 4 ⁄ 3