The Probability of Drawing Exactly Two Red Marbles Explained: $oxed{\dfrac{189}{455}}$

When analyzing probability in combinatorics, few questions spark as much curiosity as the chance of drawing exactly two red marbles from a mixed set. Whether in games, science, or statistical modeling, understanding these odds helps in making informed decisions. This article breaks down the scenario where the probability of drawing exactly two red marbles is exactly $\dfrac{189}{455}$ Ã¢ÂÂ and how this number is derived using fundamental probability principles.

Understanding the Context

Understanding the Problem

Imagine a box containing a total of marbles Ã¢ÂÂ red and non-red (letÃ¢ÂÂs say blue, for clarity). The goal is to calculate the likelihood of drawing exactly two red marbles in a sample, possibly under specific constraints like substitution, without replacement, or fixed total counts.

The precise probability value expressed as $oxed{\dfrac{189}{455}}$ corresponds to a well-defined setup where:
- The total number of marbles involves combinations of red and non-red.
- Sampling method (e.g., without replacement) matters.
- The number of red marbles drawn is exactly two.

But why is the answer $\dfrac{189}{455}$ and not a simpler fraction? LetÃ¢ÂÂs explore the logic behind this elite result.

Solved The probability that all the marbles are red is What | Chegg.com

Image Gallery

SOLVED: A bag contains 3 red marbles and 8 blue marbles. Draw two ...

Solved A bag contains 2 blue marbles, 3 red marbles, and 5 | Chegg.com

SOLVED: Find the probability for the experiment of drawing two marbles ...

Key Insights

A Step-By-Step Breakdown

1. Background on Probability Basics

The probability of drawing a red marble depends on the ratio:

$$
P(\ ext{red}) = rac{\ ext{number of red marbles}}{\ ext{total marbles}}
$$

But when drawing multiple marbles, especially without replacement, we rely on combinations:

🔗 Related Articles You Might Like:

📰 The Power of Never Back Down: Cast’s Legendary Threat Never Fades 📰 They Won’t Believe What This New BRS Does—You’ll Fall ApartReading Something Unverified About BRS Is a Game-Changer 📰 This BRS Just Broke the Internet—Will It Ruin Every Configure? 📰 From 18Th Century Huts To Modern Kitchensdiscover The Colonial Kitchen Revolution 📰 From 3 8A 4B 2C 9 Divide By 2 4A 2B C 45 📰 From 4 27A 9B 3C 18 Divide By 3 9A 3B C 6 📰 From A 2B 4 A 4 2B Plug Into 3A B 5 📰 From A B 25 A 📰 From Aesthetic Pics To Life Changing Design Tipsdiscover The Coffee Table Book You Need 📰 From Alpine Charm To Historic Beauty The Top Cities In Switzerland Revealed 📰 From Amateur To Condiment King This Saucy Masterclass Will Change Your Kitchen Forever 📰 From Ancient Temples To The Stars The Cosmology Of Kyoto That Will Blow Your Mind 📰 From Anime Fixation To Deep Connection The Reality Of Chniby 📰 From Astonishing Taste To Life Changing Effectsdiscover What Coffee Truly Does 📰 From Atlanta To Your Townsee Georgias Map Like A Local In Seconds 📰 From Awards To Heat Claire Danes Movies Tv Shows That Define Her Stellar Career 📰 From Ballroom Magic To Dark Secrets Meet Every Cinderella Character Ever 📰 From Banana Bombs To Low Carb Muffins 7 Coconut Flour Recipes That Succeed

Final Thoughts

$$
P(\ ext{exactly } k \ ext{ red}) = rac{inom{R}{k} inom{N-R}{n-k}}{inom{R + N-R}{n}}
$$

Where:
- $R$ = total red marbles
- $N-R$ = non-red marbles
- $n$ = number of marbles drawn
- $k$ = desired number of red marbles (here, $k=2$)

2. Key Assumptions Behind $\dfrac{189}{455}$

In this specific problem, suppose we have:

Total red marbles: $R = 9$
- Total non-red (e.g., blue) marbles: $N - R = 16$
- Total marbles: $25$
- Draw $n = 5$ marbles, and want exactly $k = 2$ red marbles.

Then the probability becomes:

$$
P(\ ext{exactly 2 red}) = rac{ inom{9}{2} \ imes inom{16}{3} }{ inom{25}{5} }
$$

LetÃ¢ÂÂs compute this step-by-step.

Calculate the numerator:

The Probability of Drawing Exactly Two Red Marbles Explained: $oxed{\dfrac{189}{455}}$