Question: A museum curator is cataloging early computing devices and notes that the number of components in a mechanical computer from 1850 is a three-digit number divisible by both 12 and 15. What is the smallest such number that ends in 0?

The Smallest Three-Digit Number Over 100 Ending in 0, Divisible by Both 12 and 15

When a museum curator is cataloging early computing devices, identifying historical computing components often involves studying the mechanical components used in 19th-century machines. A particular mechanical computer from 1850 features a three-digit number of parts described as divisible by both 12 and 15 — and crucially, the number ends in 0. What is the smallest such number?

To find this number, we begin by analyzing the divisibility requirements.

Understanding the Context

Step 1: LCM of 12 and 15

Since the number must be divisible by both 12 and 15, it must be divisible by their least common multiple (LCM).
Prime factorizations:

12 = 2² × 3
15 = 3 × 5
LCM = 2² × 3 × 5 = 60

Thus, the number must be divisible by 60.

Step 2: Restrict to Three-Digit Numbers Ending in 0

We seek the smallest three-digit multiple of 60 ending in 0.

Note: A number divisible by 10 ends in 0. Since 60 is already divisible by 10, all multiples of 60 end in 0. Therefore, we only need the smallest three-digit multiple of 60.

Cataloging Notes | PDF | Bibliography | Written Communication

Image Gallery

cH1.1 Early Computing Devices HISTORY | Download Free PDF | Operating ...

Input-Output Devices Notes | PDF | Input/Output | Computer Keyboard

Early computing devices hi-res stock photography and images - Alamy

History of Computer|Early computing devices from various generation

Key Insights

Step 3: Find the smallest three-digit multiple of 60

The smallest three-digit number is 100. Divide 100 by 60:
100 ÷ 60 ≈ 1.67
The next whole multiple is 2, so:
2 × 60 = 120

120 is a three-digit number, divisible by both 12 and 15, and ends in 0.

Conclusion

Thus, the smallest three-digit number ending in 0 and divisible by both 12 and 15 is 120. This number could plausibly represent the count of fundamental components in an early computing device of 1850, reflecting both the engineering precision and historical accuracy expected in museum curation.

Keywords: museum curator, mechanical computer, 1850 computing device, early computing components, three-digit number, divisible by 12 and 15, ends in 0, LCM 60, historical computing, component count, historical math, museum cataloging

🔗 Related Articles You Might Like:

📰 "Season 3 is Coming—The Last of Us Release Date Just B Bloggers Are Talking About! 📰 "Last Of Us Season 3: THE RELEASE DATE You’ve BEEN Waiting For—Desperate! 📰 "The Memory Will Return: The Last of Us Season 3 Release Date Just Shocked Fans! 📰 These Tonning Star Wars Lego Sets Are Taking The Internet By Storm 8207089 📰 The Shocking Truth About Pornblocker You Didnt Know Try It Today 2946285 📰 Plug In The Known Values 4898236 📰 Future Proof Your Health Futurhealth Reviews That Will Change Everything 8710521 📰 The Shocking Truth Behind The Funky Town Cartel No One Predictedyours Truly Reveals It All 5406581 📰 Games On Browser 6626224 📰 Deer Resistant Plants 692016 📰 Pattinson 3975678 📰 17 Tracking Uncovered Why This Tool Is Revolutionizing Real Time Monitoring 2871485 📰 This Simple Explanation Of Erp Will Change How You Run Your Business 6331168 📰 Stop Wasting Moneytop Healthcare Ads That Generate Millions Every Month 6028852 📰 New York To Madrid 6943534 📰 Can Janet Jackson Breastfeed Her Own Son The Sudden Scandal That Shook Music World 1519239 📰 Sustituye En 4X Y 5 4 Times Frac117 Y 5 3850356 📰 Tattoo Name Fonts 262605

Final Thoughts

Optimize further for search: Target long-tail searches like “smallest three-digit number divisible by 12 and 15 ending in 0” and emphasize museum context, mechanical computing history, and educational value.