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MCQ Test: Theoretical Probability - 2 - Bank Exams MCQ


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20 Questions MCQ Test Data Interpretation for Competitive Examinations - MCQ Test: Theoretical Probability - 2

MCQ Test: Theoretical Probability - 2 for Bank Exams 2024 is part of Data Interpretation for Competitive Examinations preparation. The MCQ Test: Theoretical Probability - 2 questions and answers have been prepared according to the Bank Exams exam syllabus.The MCQ Test: Theoretical Probability - 2 MCQs are made for Bank Exams 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for MCQ Test: Theoretical Probability - 2 below.
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MCQ Test: Theoretical Probability - 2 - Question 1

In a bag, there are 5 red balls, 4 green balls, and 3 blue balls. If one ball is drawn at random, what is the probability of it being green?

Detailed Solution for MCQ Test: Theoretical Probability - 2 - Question 1

There are 4 green balls out of a total of 12 balls (5 red + 4 green + 3 blue) in the bag. The probability of drawing a green ball is 4/12, which simplifies to 1/3.

MCQ Test: Theoretical Probability - 2 - Question 2

A deck of cards contains 52 cards, including 4 aces. What is the probability of drawing an ace from the deck?

Detailed Solution for MCQ Test: Theoretical Probability - 2 - Question 2

There are 4 aces out of a total of 52 cards in the deck. The probability of drawing an ace is 4/52, which simplifies to 1/13.

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MCQ Test: Theoretical Probability - 2 - Question 3

If two fair six-sided dice are rolled, what is the probability of getting a sum of 7?

Detailed Solution for MCQ Test: Theoretical Probability - 2 - Question 3

There are six combinations that result in a sum of 7 (1+6, 2+5, 3+4, 4+3, 5+2, 6+1) out of a total of 36 possible outcomes when rolling two dice (6 sides on each die). The probability is 6/36, which simplifies to 1/6.

MCQ Test: Theoretical Probability - 2 - Question 4

A bag contains 8 red marbles and 4 blue marbles. What is the probability of randomly selecting a red marble?

Detailed Solution for MCQ Test: Theoretical Probability - 2 - Question 4

There are 8 red marbles out of a total of 12 marbles (8 red + 4 blue) in the bag. Thus, the probability of randomly selecting a red marble is 8/12, which simplifies to 3/7.

MCQ Test: Theoretical Probability - 2 - Question 5

What is the probability of rolling an odd number on a fair six-sided die?

Detailed Solution for MCQ Test: Theoretical Probability - 2 - Question 5

There are three odd numbers (1, 3, 5) out of the six possible outcomes (1 to 6) on a fair six-sided die. So, the probability of rolling an odd number is 3/6, which simplifies to 1/2.

MCQ Test: Theoretical Probability - 2 - Question 6

A fair six-sided die is rolled. What is the probability of rolling an odd number?

Detailed Solution for MCQ Test: Theoretical Probability - 2 - Question 6

There are three odd numbers (1, 3, and 5) on a six-sided die. Since the die is fair, each number has an equal probability of 1/6.

MCQ Test: Theoretical Probability - 2 - Question 7

A bag contains 5 red, 4 blue, and 6 green marbles. If one marble is drawn at random, what is the probability of getting a blue or green marble?

Detailed Solution for MCQ Test: Theoretical Probability - 2 - Question 7

There are a total of 15 marbles in the bag. The probability of getting a blue or green marble is the sum of their individual probabilities, which is (4 + 6) / 15 = 10 / 15 = 2 / 3.

MCQ Test: Theoretical Probability - 2 - Question 8

If two fair coins are tossed simultaneously, what is the probability of getting at least one head?

Detailed Solution for MCQ Test: Theoretical Probability - 2 - Question 8

When two fair coins are tossed, there are four equally likely outcomes: HH, HT, TH, and TT. Out of these four outcomes, three have at least one head. So the probability of getting at least one head is 3/4.

MCQ Test: Theoretical Probability - 2 - Question 9

A standard deck of cards (52 cards) is shuffled and one card is drawn. What is the probability of drawing a heart or a spade?

Detailed Solution for MCQ Test: Theoretical Probability - 2 - Question 9

There are 13 hearts and 13 spades in a standard deck of cards. The probability of drawing a heart or a spade is the sum of their individual probabilities, which is (13 + 13) / 52 = 26 / 52 = 1/2.

MCQ Test: Theoretical Probability - 2 - Question 10

In a bag, there are 8 red balls and 5 green balls. Two balls are drawn without replacement. What is the probability of drawing two green balls?

Detailed Solution for MCQ Test: Theoretical Probability - 2 - Question 10

The probability of drawing a green ball on the first draw is 5/13. After the first green ball is drawn, there are 4 green balls left and 12 balls in total. So the probability of drawing a second green ball is 4/12 = 1/3. The overall probability of drawing two green balls is (5/13) * (1/3) = 5/91.

MCQ Test: Theoretical Probability - 2 - Question 11

A box contains 8 red socks and 7 blue socks. If two socks are drawn at random without replacement, what is the probability of getting two red socks?

Detailed Solution for MCQ Test: Theoretical Probability - 2 - Question 11

The probability of drawing a red sock on the first draw is 8/15. After the first red sock is drawn, there are 7 red socks left and 14 socks in total. So the probability of drawing a second red sock is 7/14 = 1/2. The overall probability of drawing two red socks is (8/15) * (1/2) = 8/21.

MCQ Test: Theoretical Probability - 2 - Question 12

In a class, there are 12 boys and 8 girls. If one student is chosen at random as the class representative, what is the probability of selecting a girl?

Detailed Solution for MCQ Test: Theoretical Probability - 2 - Question 12

The total number of students is 12 (boys) + 8 (girls) = 20. The probability of selecting a girl as the class representative is 8/20 = 2/5.

MCQ Test: Theoretical Probability - 2 - Question 13

A fair six-sided die is rolled twice. What is the probability of getting a sum of 7 on both rolls?

Detailed Solution for MCQ Test: Theoretical Probability - 2 - Question 13

The only way to get a sum of 7 on both rolls is by rolling a (1, 6) or (6, 1). Since the die is fair, the probability of rolling a 1 and a 6 (or vice versa) on each roll is (1/6) * (1/6) = 1/36.

MCQ Test: Theoretical Probability - 2 - Question 14

A bag contains 10 red balls and 5 green balls. If two balls are drawn at random with replacement, what is the probability of getting two red balls?

Detailed Solution for MCQ Test: Theoretical Probability - 2 - Question 14

The probability of drawing a red ball on the first draw is 10/15 = 2/3. Since the ball is replaced, the probability of drawing a red ball on the second draw is also 10/15 = 2/3. The overall probability of drawing two red balls is (2/3) * (2/3) = 4/9 = 100/225.

MCQ Test: Theoretical Probability - 2 - Question 15

A box contains 6 red balls and 4 blue balls. Three balls are drawn at random without replacement. What is the probability of drawing two red balls and one blue ball (in any order)?

Detailed Solution for MCQ Test: Theoretical Probability - 2 - Question 15

There are three ways to draw two red balls and one blue ball: RRB, RBR, and BRR. The probability of each sequence is calculated as follows:
P(RRB) = (6/10) * (5/9) * (4/8) = 1/6
P(RBR) = (6/10) * (4/9) * (5/8) = 1/6
P(BRR) = (4/10) * (6/9) * (5/8) = 1/6
Summing these probabilities, we get 1/6 + 1/6 + 1/6 = 3/6 = 6/35.

MCQ Test: Theoretical Probability - 2 - Question 16

A jar contains 12 red balls and 8 blue balls. If two balls are drawn at random with replacement, what is the probability of getting at least one red ball?

Detailed Solution for MCQ Test: Theoretical Probability - 2 - Question 16

The probability of not drawing a red ball on the first draw is 8/20 = 2/5. Since the balls are replaced after each draw, the probability of not drawing a red ball on the second draw is also 2/5. The probability of getting at least one red ball is the complement of not getting any red ball, which is 1 - (2/5) * (2/5) = 1 - 4/25 = 21/25. Simplifying, we get 21/25 = 3/5.

MCQ Test: Theoretical Probability - 2 - Question 17

In a box, there are 5 yellow balls, 4 green balls, and 3 blue balls. If one ball is drawn at random, what is the probability of getting a blue or green ball?

Detailed Solution for MCQ Test: Theoretical Probability - 2 - Question 17

There are 4 green balls and 3 blue balls, making a total of 7 favorable outcomes. The probability of getting a blue or green ball is 7/12.

MCQ Test: Theoretical Probability - 2 - Question 18

A bag contains 5 white balls and 4 black balls. If three balls are drawn at random without replacement, what is the probability of getting all white balls?

Detailed Solution for MCQ Test: Theoretical Probability - 2 - Question 18

The probability of drawing a white ball on the first draw is 5/9. After the first white ball is drawn, there are 4 white balls left and 8 balls in total. So the probability of drawing a second white ball is 4/8 = 1/2. Similarly, after two white balls are drawn, there are 3 white balls left and 7 balls in total. So the probability of drawing the third white ball is 3/7. The overall probability of drawing three white balls is (5/9) * (1/2) * (3/7) = 5/84.

MCQ Test: Theoretical Probability - 2 - Question 19

A class has 20 students, including 10 boys and 10 girls. If one student is selected at random, what is the probability of choosing a boy or a girl with black hair?

Detailed Solution for MCQ Test: Theoretical Probability - 2 - Question 19

Since the total number of students is 20 and each student is unique, there is only one student with black hair. The probability of choosing a student with black hair is 1/20.

MCQ Test: Theoretical Probability - 2 - Question 20

A bag contains 8 yellow balls, 6 red balls, and 4 blue balls. If three balls are drawn at random with replacement, what is the probability of getting exactly two red balls?

Detailed Solution for MCQ Test: Theoretical Probability - 2 - Question 20

The probability of drawing a red ball on the first draw is 6/18 = 1/3. Since the balls are replaced after each draw, the probability of drawing a red ball on the second draw is also 1/3. The probability of not drawing a red ball on the third draw is 1 - 1/3 = 2/3. The overall probability of getting exactly two red balls is (1/3) * (1/3) * (2/3) = 2/27. However, there are three possible sequences to draw two red balls (RRY, RYR, YRR). So the total probability is 2/27 * 3 = 6/27 = 2/9 = 3/8.

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