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 $\dfrac{189}{455}$ — and how this number is derived using fundamental probability principles.

Understanding the Context

Understanding the Problem

Imagine a box containing a total of marbles — red and non-red (let’s 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? Let’s explore the logic behind this elite result.

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

Image Gallery

Solved The probability that all the marbles are red is What | Chegg.com
Probability of Drawing Two Red Marbles
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:

Continue Reading

\begin{pmatrix} a & b \\ c & d \end{pmatrix} \begin{pmatrix} 0 \\ 1 \end{pmQuestion: A space explorer makes 25 voyages through a wormhole, 60% of which are successful. After 10 more voyages, her success rate increases to 68%. How many additional successful voyages did she achieve?
Solution: Initially, the explorer has $ 25 \times 0.60 = 15 $ successful voyages. After 10 more attempts, the total voyages are $ 25 + 10 = 35 $. With a 68% success rate, total successful voyages become $ 35 \times 0.68 = 23.8 $, which rounds to 24 (since successes are whole numbers). The additional successful voyages are $ 24 - 15 = 9 $.
Question: An epidemiologist models the spread of a virus in a population with the equation $ p(t) = -t^2 + 14t + 30 $, where $ p(t) $ represents the number of infected individuals at time $ t $. What is the maximum number of infected individuals?

🔗 Related Articles You Might Like:

📰 You Won’t Believe How This Ribeye Steak Transforms Your Philly Cheesesteak 📰 This Dirty $30 Ribeye Steak Turns Philly’s Famous Cheesesteak Into Something Unforgettable 📰 The Ribeye Steak You Need to Order Before It Disappears in Philly Kitchens 📰 You Wont Believe The Power Of A Blue Shirt Blue Every Outfit Needs It 📰 You Wont Believe The Power Of This Black Diamond Ringdesigner Or Luxury Investment 📰 You Wont Believe The Rarest Blue Orchid Arounddo You 📰 You Wont Believe The Real Story Of Big Granny Titts Thats Taking Over Socials 📰 You Wont Believe The Roles Bill Nighy Played In His Most Iconic Movies 📰 You Wont Believe The Secret Behind This Iconic Blue Willow China Collection 📰 You Wont Believe The Sensational Bright Blue Ps5 Controller Drama You Need To Try 📰 You Wont Believe The Shocking Rise Of The Big 3 Anime Whats Taking Over The World 📰 You Wont Believe The Six Most Iconic Bleach Main Characters 📰 You Wont Believe The Spiritual Power Behind These Bless Lord Lyrics 📰 You Wont Believe The Surprise When The Black Guy Callsmeme Explodes Online 📰 You Wont Believe The Terror Blackbeard His Ownership Of The One Piece Pirate Empire 📰 You Wont Believe The Untold Legacy Of Blazkowicz Every Reveal Explosive 📰 You Wont Believe The Upgrade In Black Version 2 Of Pokdex 📰 You Wont Believe These 100 Bleacher Reports Changed Sports Forever 1 Epic Moments Included

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:

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

Let’s compute this step-by-step.

Calculate the numerator: