Rusting in Among Us

The attention to detail in this video is impressive!

I will do one push-up for every like this comment gets

0:07 "I turn into this crazy psycho"😂 Edit: I didn't realize that this got fifty likes thank you so much

Only YouTuber that actually makes me enjoy among us still

Rust is an iron oxide, a usually reddish-brown oxide formed by the reaction of iron and oxygen in the catalytic presence of water or air moisture. Rust consists of hydrous iron(III) oxides (Fe2O3·nH2O) and iron(III) oxide-hydroxide (FeO(OH), Fe(OH)3), and is typically associated with the corrosion of refined iron. Given sufficient time, any iron mass, in the presence of water and oxygen, could eventually convert entirely to rust. Surface rust is commonly flaky and friable, and provides no passivational protection to the underlying iron, unlike the formation of patina on copper surfaces. Rusting is the common term for corrosion of elemental iron and its alloys such as steel. Many other metals undergo similar corrosion, but the resulting oxides are not commonly called "rust".[1] Several forms of rust are distinguishable both visually and by spectroscopy, and form under different circumstances.[2] Other forms of rust include the result of reactions between iron and chloride in an environment deprived of oxygen. Rebar used in underwater concrete pillars, which generates green rust, is an example. Although rusting is generally a negative aspect of iron, a particular form of rusting, known as stable rust, causes the object to have a thin coating of rust over the top. If kept in low relative humidity, it makes the "stable" layer protective to the iron below, but not to the extent of other oxides such as aluminium oxide on aluminium.[3] Rust is a general name for a complex of oxides and hydroxides of iron,[4] which occur when iron or some alloys that contain iron are exposed to oxygen and moisture for a long period of time. Over time, the oxygen combines with the metal, forming new compounds collectively called rust, in a process called rusting. Rusting is an oxidation reaction specifically occurring with iron. Other metals also corrode via similar oxidation, but such corrosion is not called rusting. The main catalyst for the rusting process is water. Iron or steel structures might appear to be solid, but water molecules can penetrate the microscopic pits and cracks in any exposed metal. The hydrogen atoms present in water molecules can combine with other elements to form acids, which will eventually cause more metal to be exposed. If chloride ions are present, as is the case with saltwater, the corrosion is likely to occur more quickly. Meanwhile, the oxygen atoms combine with metallic atoms to form the destructive oxide compound. These iron compounds are brittle and crumbly and replace strong metallic iron, reducing the strength of the object. When iron is in contact with water and oxygen, it rusts.[5] If salt is present, for example in seawater or salt spray, the iron tends to rust more quickly, as a result of chemical reactions. Iron metal is relatively unaffected by pure water or by dry oxygen. As with other metals, like aluminium, a tightly adhering oxide coating, a passivation layer, protects the bulk iron from further oxidation. The conversion of the passivating ferrous oxide layer to rust results from the combined action of two agents, usually oxygen and water. Other degrading solutions are sulfur dioxide in water and carbon dioxide in water. Under these corrosive conditions, iron hydroxide species are formed. Unlike ferrous oxides, the hydroxides do not adhere to the bulk metal. As they form and flake off from the surface, fresh iron is exposed, and the corrosion process continues until either all of the iron is consumed or all of the oxygen, water, carbon dioxide or sulfur dioxide in the system are removed or consumed.[6] When iron rusts, the oxides take up more volume than the original metal; this expansion can generate enormous forces, damaging structures made with iron. See economic effect for more details.The rusting of iron is an electrochemical process that begins with the transfer of electrons from iron to oxygen.[7] The iron is the reducing agent (gives up electrons) while the oxygen is the oxidizing agent (gains electrons). The rate of corrosion is affected by water and accelerated by electrolytes, as illustrated by the effects of road salt on the corrosion of automobiles. The key reaction is the reduction of oxygen: O2 + 4  e− + 2 H2O → 4  OH− Because it forms hydroxide ions, this process is strongly affected by the presence of acid. Likewise, the corrosion of most metals by oxygen is accelerated at low pH. Providing the electrons for the above reaction is the oxidation of iron that may be described as follows: Fe → Fe2+ + 2  e− The following redox reaction also occurs in the presence of water and is crucial to the formation of rust: 4 Fe2+ + O2 → 4 Fe3+ + 2 O2− In addition, the following multistep acid–base reactions affect the course of rust formation: Fe2+ + 2  H2O ⇌ Fe(OH)2 + 2  H+ Fe3+ + 3  H2O ⇌ Fe(OH)3 + 3  H+ as do the following dehydration equilibria: Fe(OH)2 ⇌ FeO + H2O Fe(OH)3 ⇌ FeO(OH) + H2O 2 FeO(OH) ⇌ Fe2O3 + H2O From the above equations, it is also seen that the corrosion products are dictated by the availability of water and oxygen. With limited dissolved oxygen, iron(II)-containing materials are favoured, including FeO and black lodestone or magnetite (Fe3O4). High oxygen concentrations favour ferric materials with the nominal formulae Fe(OH)3−xOx⁄2. The nature of rust changes with time, reflecting the slow rates of the reactions of solids.[5] Furthermore, these complex processes are affected by the presence of other ions, such as Ca2+, which serve as electrolytes which accelerate rust formation, or combine with the hydroxides and oxides of iron to precipitate a variety of Ca, Fe, O, OH species. The onset of rusting can also be detected in the laboratory with the use of ferroxyl indicator solution. The solution detects both Fe2+ ions and hydroxyl ions. Formation of Fe2+ ions and hydroxyl ions are indicated by blue and pink patches respectively.

Love how Sigils last words were “Ian😦.Ian☹️😢”

Sundde is the only guy who still makes entertaining among us content

Love your videos ssundee you make my days the best

I miss seeing the crew mate side of the modes

Back to the metal mods Good looking impostor

0:00 Zud dancing in backround😂

Ssundee never fails to entertain

This mod sooo good!

0:29 "i'll probably put that crystal in to clear myself" 'proceeds to never do that'

@SSundee, you should do the "if you hit the like button, it'll turn BLUE" in the intros, it was so good back then. Thank you for the laughs.

We all love you ssundee!

You should play terra tech again I loved that series

Day 28 of petition to bring back derp ssundee

Mods like JAILBREAK Mod, where everybody can play, have fun and that doesn't have a unfair advantage to Ssundee is sooo much better to watch!!! I LOVED. 😍 This video is very cool cool too, but when they have more equality to both sides, is so much better.

Imagine an actual rust mod in among us