Solution: We compute the number of distinct permutations of 10 sensors: 4 red (R), 5 green (G), and 1 blue (B). The number of sequences is:

Solution: How to Compute Distinct Permutations of 10 Sensors with Repeated Colors

When designing systems involving sequences of objects—like arranging colored sensors—understanding the number of distinct arrangements is crucial for analysis, scheduling, or resource allocation. In this problem, we explore how to calculate the number of unique permutations of 10 sensors consisting of 4 red (R), 5 green (G), and 1 blue (B).

The Challenge: Counting Distinct Permutations with Repetitions

Understanding the Context

If all 10 sensors were unique, the total arrangements would be $10!$. However, since sensors of the same color are indistinguishable, swapping two red sensors does not create a new unique sequence. This repetition reduces the total number of distinct permutations.

To account for repeated elements, we use a well-known formula in combinatorics:

If we have $n$ total items with repeated categories of sizes $n_1, n_2, ..., n_k$, where each group consists of identical elements, the number of distinct permutations is given by:

\[
\frac{n!}{n_1! \cdot n_2! \cdot \ldots \cdot n_k!}
\]

Solution with distinct permutations. | Download Scientific Diagram

Image Gallery

$Find the number \mathrm{n} of distinct permutations that can be formed fr..$

Solved How many distinct permutations can be made from the | Chegg.com

Solved 2.34 (a) How many distinct permutations can be made | Chegg.com

Solved: Thin Pan pt ppers as) How many distinct permutations can be ...

Key Insights

Applying the Formula to Our Sensor Problem

For the 10 sensors:
- Total sensors, $n = 10$
- 4 red sensors → $n_R = 4$
- 5 green sensors → $n_G = 5$
- 1 blue sensor → $n_B = 1$

Plug into the formula:

\[
\ ext{Number of distinct sequences} = \frac{10!}{4! \cdot 5! \cdot 1!}
\]

Step-by-step Calculation

🔗 Related Articles You Might Like:

📰 Stardew Valley Mac Revealed: The Ultimate Edition Perfect for Farmers & Adventurers! 📰 Mac Users Ultimate Stardew Valley Hack: Free Mods You Need NOW! 📰 This Stardew Valley Tracker Will Revolutionize How You Capture Every Harvest & Secret! 📰 Dilmil Hacks That Are Taking The Internet Wildtry This Before Its Gone 9037131 📰 50 40 90 Club 9872648 📰 Updated Silver Prices 9667013 📰 Get The Unofficial Las Vegas Insider Guidefollow These Steps For The Ultimate Experience 1644248 📰 Jfk Nueva York 3588789 📰 Stop Stressing Over Formal Wear Heres How To Perfect Your Business Formal Look Today 8369033 📰 Online Account Number Uscis 260936 📰 Spider Man 02 Shatters Expectationsunveiling The Ultimate Secret 1067085 📰 Finally Free No More Brushing Just Wild Texture And Surprise 2206479 📰 From Zero To Insane Skate 2 Review You Have To See 7406200 📰 Cmt Login Secrets How To Access Your Account Like A Pro 9536033 📰 Unlock The Secrets Of Charges In Periodic Elements Mind Blowing Facts Ahead 7776415 📰 What Time Little Caesars Close 7716713 📰 5Ds The Ultimate Langostino Lobster Showdown Which Dominates The Scoreboard 1571603 📰 Why Yahoo Finance Classic Still Rules The Investing World In 2024 6155415

Final Thoughts

Compute factorials:
$10! = 3628800$
$4! = 24$
$5! = 120$
$1! = 1$
Plug in:

\[
\frac{3628800}{24 \cdot 120 \cdot 1} = \frac{3628800}{2880}
\]

Perform division:

\[
\frac{3628800}{2880} = 1260
\]

Final Answer

There are 1,260 distinct permutations of the 10 sensors (4 red, 5 green, and 1 blue).

Why This Matters

Accurately calculating distinct permutations helps in probability modeling, error analysis in manufacturing, logistical planning, and algorithmic design. This method applies broadly whenever symmetries or redundancies reduce the effective number of unique arrangements in a sequence.