#modulus Svelata la data di inizio dell'Early Access di Modulus L'Early Access inizierà a fine ottobre https://www.gamernews.it/notizie/2025/07/14/svelata-la-data-di-inizio-dell-early-access-di-modulus-20170.php

建造物も作れちゃう工場自動化ゲーム『Modulus』10月22日より早期アクセスが開始。好きなようにブロックをカット・着色・変形・合体させ、依頼されたものを納品しよう
https://news.denfaminicogamer.jp/news/2506092v

#denfaminicogamer #PC_Gaming_Show_2025 #Modulus #Happy_Volcano #PC #Steam #fab #ニュース

工場自動化系シミュレーションゲーム「Modulus」，早期アクセス版を10月22日にリリース
https://www.4gamer.net/games/899/G089929/20250609035/

#4gamer #Modulus #モジュラス #PC_Gaming_Show_2025 #PC_Gaming_Show

ICYMI: Modulus manufactures a demo #games #indiegames #Modulus https://www.gamerstemple.com/news/35502/modulus-manufactures-a-demo?utm_source=dlvr.it&utm_medium=mastodon

頭を絞って，より効率的な生産ラインを構築！　ファクトリーオートメーションシム「Modulus」のデモ版公開
https://www.4gamer.net/games/899/G089929/20250408021/

#4gamer #Modulus

Modulus manufactures a demo #games #indiegames #Modulus https://www.gamerstemple.com/news/35502/modulus-manufactures-a-demo?utm_source=dlvr.it&utm_medium=mastodon

Modulus is a "Zen" factory builder in which you build pieces for other factories - https://www.rockpapershotgun.com/modulus-is-a-zen-factory-builder-in-which-you-build-pieces-for-other-factories #Strategy:Builder #ScienceFiction #Modulus #PC

無限に時間を溶かせそうな工場自動化ゲーム『Modulus』が開発中。自由に生産ラインを構築し、ブロックをカット・着色・変形・合体させて「モジュール」を製造しよう。建造物まで組み立てられてヤバい
https://news.denfaminicogamer.jp/news/2412262a

#denfaminicogamer #ニュース #Modulus #工場自動化 #Happy_Volcano #fab #PC #Steam

Just playing with #bubblewrap and thinking that it’s not so much air that absorbs incident force but the #polymer film of the bubble. You can feel the #modulus of the material as you press on it. Air doesn’t respond like that, but a pretensioned #polyethylene film does. #polymers #materials #materialscience #chemistry #cantturnitoff #AlwaysThinkingAboutPolymers

#parv_note Reminding self the parts of a #modulo_operation ...

From
What is modular arithmetic?: An Introduction to Modular Math: https://www.khanacademy.org/computing/computer-science/cryptography/modarithmetic/a/what-is-modular-arithmetic ...

... in
n mod m = x,
"n" is dividend;
"m" is modulus;
"x" is remainder;
"mod" is the modulo operator

... after I was corrected on IRC when I blurted out my ignorance with "#modulus operator".

Basses make me happy 🙂
#bass #bassguitar #elrick #rickturner #modulus #6stringbass

Hackaday Links: April 24, 2022

Wait, what? Is it possible that a tech company just killed off a product with a huge installed base of hardware and a community of dedicated users, and it wasn't Google? Apparently not, if the stories of the sudden demise of Insteon are to be believed. The cloud-based home automation concern seems to have just disappeared -- users report the service went offline at the end of last week, and hasn't been back since. What's more, the company's executives removed Insteon from their LinkedIn profiles, and the CEO himself went so far as to remove his entire page from LinkedIn. The reasons behind the sudden disappearance remained a mystery until today, when The Register reported that Smartlabs, Inc., the parent company of Insteon, had become financially insolvent after an expected sale of the company failed in March. The fact that the company apparently knew this was going to happen weeks ago and never bothered to give the community a heads up before pulling the switches has led to a lot of hard feelings among the estimated 100,000 Insteonhub users.

Then again, with a comet the size of Rhode Island heading our way, a bunch of bricked smart bulbs might just be a moot point. The comet, known as C/2014 UN271, has a nucleus that is far larger than any previously discovered comet, which makes it a bit of an oddball and an exciting object to study. For those not familiar with the United States, Rhode Island is said to be a state wedged between Connecticut and Massachusetts, but even having lived in both those states, we couldn't vouch for that. For scale, it's about 80 miles (128 km) across, or a little bit bigger than Luxembourg, which we're pretty sure is mythical, too. The comet is a couple of billion miles away at this point; it may never get closer than a billion miles from the Sun, and that in 2031. But given the way things have been going these last few years, we're not banking on anything.

From the "Answering the Important Questions" file, news this week of the Massachusetts Institute of Technology's breakthrough development of the "Oreometer," a device to characterize the physical properties of Oreo cookies. The 3D printed device is capable of clamping onto the wafer parts of the popular sandwich cookie while applying axial torque. The yield strength of the tasty goop gluing the two wafers together can be analyzed, with particular emphasis on elucidating why it always seems to stay primarily on one wafer. Thoughtfully, the MIT folks made the Oreometer models available to one and all, so you can print one up and start your own line of cookie-related research. As a starting point, maybe take a look at the shear strength of the different flavors of Oreo, which might answer why the world needs Carrot Cake Oreos.

And finally, since we mentioned the word "skiving" last week in this space, it seems like the all-knowing algorithm has taken it upon itself to throw this fascinating look at bookbinding into our feed. We're not complaining, mind you; the look inside Dublin's J.E. Newman and Sons bookbinding shop, circa 1981, was worth every second of the 23-minute video. Absolutely everything was done by hand back then, and we'd imagine that very little has changed in the shop over the ensuing decades. The detail work is incredible, especially considering that very few jigs or fixtures are used to ensure that everything lines up. By the way, "skiving" in this case refers to the process of thinning out leather using a razor-sharp knife held on a bias to the material. It's similar to the just-as-fascinating process used to make heat sinks that we happened upon last week.

#hackadaycolumns #hackadaylinks #bookbinding #bricking #comet #cookie #insteon #iot #luxembourg #modulus #oreo #rhodeisland #shear #skiving #torque

Compliant Mechanisms Hack Chat

Join us on Wednesday, January 26 at noon Pacific for the Compliant Mechanisms Hack Chat with Amy Qian!

When it comes to putting together complex mechanisms, we tend to think in a traditional design language that includes elements like bearings, bushings, axles, pulleys -- anything that makes it possible for separate rigid bodies to move against each other. That works fine in a lot of cases -- our cars wouldn't get very far without such elements -- but there are simpler ways to transmit force and motion, like compliant mechanisms.

Compliant mechanisms show up in countless products, from the living hinge on a cheap plastic box to the nanoscale linkages etched into silicon inside a MEMS accelerometer. They reduce complexity by putting the elasticity of materials to work and by reducing the number of parts it takes to create an assembly. And they can help make your projects easier and cheaper to build -- if you know the secrets of their design.

Amy Qian, from the Amy Makes Stuff channel on YouTube, is a mechanical engineer with an interest in compliant mechanisms, so much so that she ran a workshop about them at the 2019 Superconference. She'll stop by the Hack Chat to share some of what she's learned about compliant mechanisms, and to help us all build a little flexibility into our designs.

Our Hack Chats are live community events in the Hackaday.io Hack Chat group messaging. This week we’ll be sitting down on Wednesday, January 26 at 12:00 PM Pacific time. If time zones have you tied up, we have a handy time zone converter.

#hackadaycolumns #compliantmechanisms #constraint #elastic #flexible #flexure #hackchat #modulus #monolithic