How Do Elements Get Their Physical Properties - Simple Explanation | Arvin Ash

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Ever Wondered Why Mercury is Liquid and Gold is Yellow?
This video explores the fascinating reasons behind the physical properties of elements. Learn why mercury is a liquid at room temperature, why gold has its distinctive yellow color, and why oxygen is colorless. Please visit my website to get more information: arvinash.com/
The explanation covers the electron configurations, quantum mechanics, and relativistic effects that determine these properties. This video is perfect for anyone curious about the science behind element properties.
Helium has two protons and, thus, two electrons in its neutral state. The first two electrons of any element occupy the first electron shell, making it full.
Because the shell has a complete set of electrons, Helium can not usually take on any extra electrons nor share its electrons with other elements, including itself. So it doesn’t react with anything. It simply floats around as individual atoms.
Their non-reactivity with other atoms prevents them from forming a condensed phase, like a liquid or metal. The same principle generally applies to the other noble elements.
Non-noble gases such as oxygen and Nitrogen are gases not because they don’t interact but because they prefer to interact with themselves to form stable molecules. They are stable and do not form a condensed state.
These gases are colorless because they do not absorb or emit photons. Since light simply passes right through these gases, they appear transparent. But gases like fluorine and iodine do absorb photons. So, they have color because we see the complementary color of the absorbed light.
An element is a liquid when its atoms can slide over each other and move. Its inter-atomic force of attraction is relatively weak, still stronger than that of a gas, but only strong enough for the atoms to stick to each other, not strong enough to stop movement. So, its structure does not retain a definite shape.
A substance is only solid when its atoms are held together by stronger inter-atomic forces such that the atoms, for the most part, stay put and can’t slide past each other. This is the iron case.
However, Mercury is a liquid because it has a full outer shell of electrons. It does not like to share its electrons much in the metallic matrix, which allows the atoms to move around.
A relativistic effect also makes the electrons of Mercury less available for sharing. The 6s shell electrons have a high orbital speed, 58% of the speed of light, resulting in a gamma factor of 1.23.
This means they gain a relativistic mass, which adds about 23% to the rest of the electrons' mass. Since the orbital radius is inversely proportional to mass, this higher mass results in a smaller radius, bringing the electrons closer and more strongly bound to the nucleus and making them less available for sharing.
Why are most metals gray? This is a direct result of photon absorption by electrons in the d orbital of most metals. This energy absorption results in the d electrons jumping to the higher s orbitals. This typically requires very high energy levels, so only high-energy ultraviolet photons enable this.
Photons with lower frequencies in the visible spectrum are not absorbed and simply reflected. This reflected light is what we see, which is typically a silvery gray, which is just a shade of white. The gray we perceive is due to reflectivity of the metal.
Some metals such as gold have a different color because their d electrons require a lower energy to move to an S orbital. So gold absorbs energy in the visible blue range of the spectrum. White light without blue takes on a yellowish "golden" color we see.
✅ CHAPTERS
0:00 The questions we'll answer
1:18 "Standard conditions"
3:18 How electron configuration leads to gases
4:59 About our sponsor, Ground.News
6:27 Why are oxygen and Nitrogen gases, too?
7:51 Where do colors of gases come from?
9:48 Why is Mercury a liquid?
11:23 How relativity makes Mercury a liquid
12:57 Why is Iron a solid?
14:17 Why are most metals gray?
15:03 Why is Gold yellow?
This video is about How Do Elements Get Their Physical Properties - Simple Explanation. But It also covers the following topics:
Element Properties Explained
Physical Properties Of Elements
Why Are Metals Different Colors
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15 июн 2024

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Комментарии : 437

@ArvinAsh 24 дня назад

Many thanks to our sponsor for making this video possible: Go to ground.news/ArvinAsh to see through media bias and get all sides of every story. Subscribe through my link for 40% off unlimited access this month.

@michaelmangan7963 17 дней назад

Can you cover the new JWST discoveries of large, mature galaxies in the early universe? Brian Green and others made some comments that suggest areas outside the observable universe might have banged and cooled sooner than our area. Are there galaxies speeding toward us faster than the speed of light or is everything moving away faster than the speed of light? What’s the deal with Andromeda moving toward us if the latter?

@anhydrousTHF 23 дня назад

I teach undergraduate general chemistry. The visual descriptions are superb, I will show these to my students. Thank you

@lexinexi-hj7zo 23 дня назад

12:15 : sO MERCURY DOESN'T "WET" LIKE LIQUID GALLIUM BECAUSE OF THOSE TWO OUTER ELECTRONS BEING HELD CLOSER TO THE NUCLEUS, THEREFORE MAKING IT MORE "INERT"?

@ArvinAsh 23 дня назад

That's great to hear!

@cvp5882 23 дня назад

Mercury can wet and display capillary forces, just with a narrower group of metals. Mercury and gold get along just fine. Not like gallium or lead, though. Lead acts like it will wet anything. It's useful to break surface tension in soldering alloys, but that also makes it very persistent in biological tissues.

@Blue.star1 18 дней назад

@@ArvinAsh have u heard of colored mercury , R & B types

@mnahmedlimited6022 23 дня назад

I'm a senior Doctor, and involved in teaching medical students and registrars. Teaching doesn't come natural to me but I have found your simplified method of explaining in short bits and pieces and your laid-back soft approach very useful, so thank you for not only educating me into subjects not familiar to me, but also educating me into how to educate!

@ACuriousChild 22 дня назад

Medical students are BRAINWASHED AND INDOCTRINATED nothing more nothing less .... look at "I am science" if you doubt it!

@halfsourlizard9319 14 дней назад

tf is a 'senior doctor'? Are you old or are you a geriatrician or what?

@jagmarc 23 дня назад

One great thing about these videos is not AI narrated and the sound quality is excellent without having a huge enormous oversized microphone in the foreground covering over a third of the frame.

@stefaniasmanio5857 22 дня назад

And excellent animations❤❤

@jagmarc 22 дня назад

@@stefaniasmanio5857 Yes. Anyone idea where & what makes them?

@NuisanceMan 14 дней назад

@@jagmarc Sinister aliens from the Delta Quadrant kindly donated their services.

@twrandy 23 дня назад

And about the color of Gold, I think this deserve more detailed explanation, because: 1. Copper is also of different color than other metals, but its 4s electron certainly does not have as high energy as Gold's 6s electron, then why does it also absorb lower energy light? 2. If Gold's 6s is closer to 5d so it can absorb lower energy light, then why not other elements of similar or heavier weight, e.g. atom order 78 (Pt) to 84 (Po)?

@chbrules 23 дня назад

Just when I think I know everything, Arvin comes along and shows me I know nothing. Wonderful explanation!

@CaseyW491 23 дня назад

This is a topic I've been curious about since I was a kid. I feel like chemistry teachers I've had missed this opportunity for an interesting lecture.

@wayneyadams 23 дня назад

Fluorine gas exists as diatomic molecules so your simplistic explanation of single valence shell electrons absorbing photons is misleading. There is no unpaired electron to jump to a higher energy level, it is part of a covalent bond (sigma bond) and that is where we must look to understand the color of Fluorine gas as well as the colors of the rest of the Halogens.

@chriskennedy2846 21 день назад

And, Fluorine was misspelled (Flourine) the first time that slide was shown at around 1:32. When that slide appeared again much later in the video, it was the correct spelling. Your point is a good one. Studying the various energy levels for bonding and antibonding orbitals on a molecular orbital diagram for diatomics shows a clear difference between energy of the unpaired radical electrons for each fluorine and the energy of those same electrons after bonding. Despite the errors however, I do like Arvin's channel. He is not one of those typical grandiose science channels who only talks about black holes or what the Universe looked like after the first 3 minutes. His topics vary quite a bit and in my opinion, this "lower level stuff" is way more interesting anyway.

@Muonium1 8 дней назад

Precisely. The explanation is completely facile. The real reason has to do with the vibrational modes of the diatomic molecules coupling to the electronic excitation levels. It's so cringe seeing all these "this is the most amazing explanation of chemistry ever!" and "I wish my teacher would have taught chemistry like this when I was in school, maybe I would have learned something!" comments on bad videos like this.

@cosma_one 23 дня назад

Great video Arvin. Finally some good explanation as to why matter is the way it is. Thank you.

@ChronosWS 21 день назад

This is probably the best video I have ever seen explaining why the elements have their properties.

@leadharsh0616 23 дня назад

Your videos are so amazing, you are able to explain complex topics in a very simple manner, and your voice doesnt let a person get bored. that's why i always look at your channel for complex quantum science videos

@Rationalific 23 дня назад

There's so much high-level information packed into such a concise video in a way that is both extremely understandable and entertaining to a layperson. And even though it's really fun to watch, you don't treat viewers like they can't handle information that is above what most other science videos get into. This video is a case in point, although you have done this again and again. Thanks for all of these fantastic videos!

@Celestiallearn1162 22 дня назад

Elements get their properties due to the structure of their atoms and the interactions between those atoms. This includes factors such as electron configurations, the types of bonds they form, and how they interact with light. Here’s an explanation for each of the properties you mentioned: ### Mercury (Hg) - Liquid at Room Temperature Mercury is a liquid at room temperature due to its unique electronic configuration and weak bonding between atoms. Here's why: 1. **Electron Configuration**: Mercury's electron configuration ends in a filled \(4f^{14} 5d^{10} 6s^2\) subshell. The filled d-subshell contributes to weak metallic bonding. 2. **Relativistic Effects**: For heavy elements like mercury, relativistic effects (due to high atomic number) cause the s-electrons to move faster and be more tightly bound to the nucleus, reducing overlap with other mercury atoms. 3. **Weak Interatomic Forces**: The weak overlap of mercury atoms leads to weaker metallic bonds, resulting in lower melting points, thus making mercury a liquid at room temperature. ### Gold (Au) - Yellow Color Gold appears yellow due to the way its electrons interact with light: 1. **Electron Transitions**: Gold has a partially filled d-band. The energy required to promote an electron from the filled d-band to the conduction band falls within the visible spectrum. 2. **Relativistic Effects**: These effects lower the energy levels of the 6s orbital and raise the energy levels of the 5d orbital. This causes gold to absorb blue light, and the reflected light is predominantly in the red and yellow part of the spectrum, making gold appear yellow. ### Oxygen (O₂) - Colorless Oxygen is colorless because of its molecular structure and electronic transitions: 1. **Molecular Orbitals**: In its most stable form (O₂), the electron transitions that absorb light occur at wavelengths in the ultraviolet region, which are not visible to the human eye. 2. **Diatomic Molecule**: O₂ molecules do not absorb visible light significantly, thus they appear colorless. ### General Principles Behind Elemental Properties The properties of elements are fundamentally determined by: 1. **Atomic Number and Electron Configuration**: Determines the chemical behavior, type of bonding, and reactivity. 2. **Interatomic Forces**: Van der Waals forces, covalent bonds, ionic bonds, and metallic bonds affect the state of matter and structural properties. 3. **Relativistic Effects**: For heavier elements, relativistic effects can alter energy levels and bonding properties. 4. **Crystal Structure**: The arrangement of atoms in a solid affects its mechanical and optical properties. 5. **Quantum Mechanical Effects**: The behavior of electrons as both particles and waves influences chemical and physical properties. In summary, the distinct properties of elements arise from their atomic structure and the principles of quantum mechanics, which govern how electrons are arranged and how they interact with other atoms and with electromagnetic radiation.

@backwashjoe7864 21 день назад

He gave those explanations in the video. Saying "here's an explanation for each of the properties you mentioned" makes it sound like this is your original work.

@wmpx34 3 дня назад

@@backwashjoe7864sounds like generative A.I. to me

@elvest9 23 дня назад

These videos should come in a set of five. The same video loops at least five times so I have a chance of remembering even half of it.

@eddyengland5398 23 дня назад

At least it’s not just me

@pluto9000 23 дня назад

0.75 x play speed 👍

@Kualinar 23 дня назад

Just pause, go back as you please or need, maybe play the whole video again.

@rnd135173 23 дня назад

Wow, I now have a feeling I understand how it works... Thank you so much for that opportunity and your perfect explanations!

@Dinnye01 22 дня назад

This actually makes so much sense, that I sent the link to my middle school chemistry and physics teachers. This one will be seen in classrooms. And it belongs there.

@balazsadorjani1263 23 дня назад

I always hated chemistry (thank you, Mrs. Chemistry Teacher in high school), but explained in an interesting and understandable way, like in this video, makes all these facts simply fascinating!

@yennhinguyen6746 11 дней назад

As a chem student these are the questions I ask every day, glad I found a video mentioning about this

@cole6416 23 дня назад

The very specific topics of your recent videos have been by far my favorite. Thank you for creating these videos.

@mattwhite399 23 дня назад

This video is fantastic. I have wondered about this exact subject for a long time, and your explanation was clear and easy to follow. Whenever a new question popped into my mind, you answered it. Bravo!

@thetinkerist 23 дня назад

Thanks Arvin, was hoping you'd do this sequel and as you promised you did, and it is awesome to see that a few basic principles make up all the properties, maybe a bit wilder with quantum effects but I really love the video. Thanks for your work!

@Deutungshoheit 23 дня назад

I always loved physics but I suddenly feel like I understand chemistry a whole lot better and want to learn more about it. 😃

@patrickmeehan6856 23 дня назад

This was amazing! Your visuals aid your dialogue very well.

@shankarh6915 17 дней назад

Wonderfully satisfying to watch these videos... several aha moments as the explanations connects seemingly disparate facts that were studied, but never really understood! Thank you for providing delightfully educative videos!

@cartermurphy1618 23 дня назад

This is an incredible video. I would have loved to hear you go on and on for hours describing how the properties of various substances emerge from quantum mechanics (and relativistic effects! I hadn’t heard of that before!) Anyway, this was great. I’m glad to have found this channel.

@voidoidbas 23 дня назад

*Fluorine* is added to water to prevent tooth decay. *Flourine* is added to water to make bread dough. (Otherwise, a fine video.)

@keep-ukraine-free 20 дней назад

@voidoidbas With so much content in this brief video, and such high production quality, let's overlook minor typos.

@fburton8 20 дней назад

While in pedantic mode… Would a small ampoule of fluorine have such a strong colour? My understanding is it is very pale, paler than chlorine gas.

@keep-ukraine-free 16 дней назад

@@fburton8 Remember that two ampules of a gas (fluorine) are not necessarily identical. One may appear "stronger" or more colorful than the other. Continuing pedantic mode... the "color strength" of a gas ampule depends on the gas' density (pressure) within its ampule. Dense gas would have more atoms per unit volume, so it would be more likely to experience photon-excitation causing more photons to be emitted (of its natural "color"). That will make its color "stronger". *_So summarizing, a gas' density directly affects its color "strength" (saturation)._* So, theoretically, even Helium (normally colorless) _should_ exhibit very faint color properties when at the highest density (whilst still a gas). This would be extremely rare, since He has only 2 electrons -- and for color to emerge, one/both of those electrons would need to bet temporarily excited to a higher orbital -- which is very very (did I say, _VERY_ much) difficult. This is theoretical, but still experimentally determinable.

@Italianjedi7 23 дня назад

Loved this! It’s amazing how the electron configuration is key to properties of elements

@TailstheWizard 23 дня назад

another banger for the books. always love how you break things down and make it easy to learn this type of stuff

@xanterrx9741 23 дня назад

<a href="#" class="seekto" data-time="737">12:17</a> I was waiting when you whould say something about quatum mechanics and QFT , also everything in the video was awesome great work Arvin.

@ArvinAsh 23 дня назад

Not this time, my friend. It was not really needed to explain this particular concept. But as you know, it's all quantum mechanics.

@keep-ukraine-free 20 дней назад

@@ArvinAsh "It's all quantum mechanics." Soooo true. We arise from interacting fluctuations among a few overlapping quantum fields. Is it 12+12+4 fields?

@picksalot1 23 дня назад

Exceptionally good video, with clear explanations of why the Elements appear and behave as they do. 👏

@brianfox771 23 дня назад

I've never regretted going back to school after getting a law degree and getting a B.S. in Chemistry. The world it opened up for me has just been fascinating.

@konooleh 23 дня назад

This was an incredibly helpful video to understand the nature of electrons. Thank you a lot!

@brianlebreton7011 23 дня назад

Thank you for the extra explanation. Much appreciated.

@anthonycarbone3826 23 дня назад

This would make an outstanding book on chemistry going through each element one by one. The opening would also show the complete diagram of each individual atom with its electron orbital system explained. Following pages would explain how that configuration describes its properties in every manner. The first chapter would just explain or go over the basic chemistry laws like Pauli exclusion and others needed to grasp how the elements interact. Maybe it already exists and if so I will pick it up. A future video should explain why elements are so many times not in their standard configuration and remain that way. I have to label this video OUTSTANDING especially in its presentation.

@Berneer 16 дней назад

Amazing video. If high school taught chemistry like this I’d have seriously considered chemistry as my professional calling! Amazing video as usual Mr. Ash. Thank-you!

@franciscovalenzuela4152 22 дня назад

Your videos give the need to continue investigating and learning ❤

@keep-ukraine-free 20 дней назад

An exceptional video, because it clearly & succinctly explains these questions so many have wondered about. Its paired sister (predecessor) video is also great! Highly recommend both (in addition to your earlier one on atomic Quantum effects).

@PetraKann 23 дня назад

<a href="#" class="seekto" data-time="444">7:24</a> error (Nitrogen does not have 5 "atoms" in its outer shell, it's 5 electrons.

@ArvinAsh 23 дня назад

Oh boy! I missed that. Mouth fart!

@Barnardrab 23 дня назад

I was about to point that out too, so I checked the comments first.

@ShaneH42 23 дня назад

Amazing video, it answers so many questions so well

@wellbeef 23 дня назад

I was thinking about this earlier, on the bus today. It's like you knew Arvin and I appreciate that.

@Ritziey 23 дня назад

loved it.. waiting for more parts

@uncletiggermclaren7592 14 дней назад

This video was very interesting, and satisfying. I vaguely remember my physics teacher talking about the colour of metals in high school, but he didn't really care that much to teach students, he had been teaching since just after WW2, 30 years before he got around to me.

@aurotirannos 23 дня назад

A fantastic explanation: easy to understand and very clear.

@KpxUrz5745 14 дней назад

I have often wondered about all of these questions about elemental differences. Now the trick will be to try to remember all these answers. Interesting video!

@zack_120 23 дня назад

This is a treat, so interesting and useful !

@philippedomeneghetti2017 23 дня назад

Passionnant comme toujours. Bravo

@TheNameOfJesus 23 дня назад

Wow. I believe in your previous video on this subject I wrote a comment asking you to create another video explaining the colours of the elements, and this video is very close to what I wanted you to talk about. (Of course, I can't prove you saw my comment.) I was hoping for the exact numerical values of the differences between the energy levels for the different electron shells, but this was more of a qualitative discussion. Well, this is a big topic and maybe you can expand on this area in future videos. For example, I would like you to show that the differences between energy levels in differing shells are usually not in the visible light spectrum, but in this video you seemed to imply that the energy level differences were mostly in the visible light spectrum. (There are only a few energy level differences that correspond to the spectrum of visible light.) For another example, I would like you to explain whether the number of protons in the nucleus impact the exact numerical values of the energy levels in the different shells. For a third example, your animations implied that an electron would only jump up or down a single level, but I think that's completely wrong, they can (and will) jump multiple levels at once.

@hassebir 17 дней назад

This is in the top ten off all videos on the tube. Deep stuff explained simple for all to learn. epic!

@TorrentUK 23 дня назад

Really well explained. Great video

@uriituw 23 дня назад

This was an awesome video-yet again!

@thegettokidZz 23 дня назад

This educational resource is invaluable thank you! And for free !!

@garydunken7934 15 дней назад

Great topic and production Arvin.

@theograice8080 23 дня назад

Thank you, Mr Arvin Ash for producing and publishing this video for us. Marvelous! You have answered many of my questions already. Yet, I have a few more for which I would greatly appreciate your comments: (1) By what is paramaterized the function of the force of attraction between an electron in its orbital and the atomic nucleus? (2) Can the force from (1) be used to calculate an effective radial distance from the nucleus of the electrons to their orbitals, perhaps given that the nucleus and elections are treated as points in spacetime at which their energy is converted purely to mass which warps the spacetime curvature? (3) when electrons are shared between atoms, can this be represented as two topological manifolds coming into contact and sewing together [some of their] (hyper-)faces/edges/vertices, so that objects embedded-within or projected-upon said manifolds can travel between them (I.e., an electron orbiting two atoms might become represented as a "geodesic" on an atom-local subspace).

@SB-qm5wg 18 дней назад

Some great explanations here. Thank you.

@wintermutevsneuromancer8299 22 дня назад

thiis was amazing! thx for this great video!

@PodaKalidoka 23 дня назад

@ArvinAsh Sometimes the text 'Fluorine' is written as 'Flourine'. I thought I had drunk too much at first. 😄

@FiniteJest 23 дня назад

Isn’t fluorine gas a diatomic molecule like nitrogen and oxygen? The video shows a single fluorine atom going to an excited state, however.

@dr.jamesolack8504 14 дней назад

Yes, it is.

@meurtri9312 4 дня назад

one of the best science explanation videos i have seen.

@TelegobageProd 23 дня назад

Thanks for coming back to the elementary !

@sushantm9475 22 дня назад

Excellent video Arvin Sir

@joeyRaven201 13 дней назад

Thank you for fuiling my curiosity i always wanted to know how and why some atoms bond and others dont great work keep it up

@djz8033 23 дня назад

tremendous video. a great service to students

@sirdiealot53 7 дней назад

Thanks for the rapid fire answers to curious questions!

@NuisanceMan 14 дней назад

Very good video. Left me wanting more.

@stefaniasmanio5857 22 дня назад

Hi this is pure art of teaching. A masterpiece. Thank you so much ❤❤❤❤

@ruperterskin2117 23 дня назад

Right on. Thanks for sharing.

@AndyAlegria 23 дня назад

Excellent explanation. Chemistry for dummies taught at the perfect level, not to hard and not to easy.

@dzoniplavsic 23 дня назад

I additional to fluorine and other halogena elements, nitrogen and oxygen atoms also have unpaired electrons, so they are not colored. Why? Maybe they also absorb but not in the visile part of the spectrum?

@akademesanctuary1361 22 дня назад

The annoying thing with QM is that a particle like an electron can appear in multiple ways simultaneously, each uniquely fitting a particular context. Electrons and other leptons are fascinating to reconstruct from the field. They are real bicomplex surfaces without a real reference or real relationship with the field. Those qualities belong to hadrons who don't have a real surface separating these roles. All leptons have either inertial or non-inertial frames. They either have a rest state or they never have a rest state. The absence of real reference or field perspective means they will orient and shape relative to real values. This real surface is described as degeneracy pressure. When value is added into it, it contracts. This is why atoms in a period on the table get smaller as their outer shell fills with electrons. But then we add value into that shell. It has nowhere to contract, so it expands until that energy level is filled and is forced to be excluded by the electron as a photon. It's hard to appreciate your explanations here without first understanding why all the visualizations of electrons as points, clouds, etc. are both true and not true. They wear the hats fitting the available contexts. It's easy to fall in love with leptons. They are field dabbling in position.

@JohnDoe-rm1kw 22 дня назад

cant wait for the next episode.

@paulpaulsen7777 21 день назад

Thank you very much. Well explained. Please keep it up 👍

@StrattCaster 14 дней назад

So glad I found this channel by fluke today, this is some seriously interesting material. Liked and subbed

@jeffpearce8748 22 дня назад

The wonders of the universe are appreciated so much more when you see how intricate the details are. Thankyou for sharing the knowledge 🙏 👏👏👏👏

@Eztoez 21 день назад

beautifully explained

@DanteGabriel-lx9bq 23 дня назад

I love chemistry so much, it's an aweome field!

@whmi8498 23 дня назад

Please make a video about van der waals force

@tresajessygeorge210 23 дня назад

THANK YOU... DR. ARVIN ASH...!!!

@maxducoudray 23 дня назад

Are you trying to trick people into loving chemistry?!

@ArvinAsh 23 дня назад

It's a vast conspiracy of chemical engineers! lol.

@paulpaulsen7777 21 день назад

Everything is chemistry. The whole world, all life is chemistry. So why not know a bit more about it...

@antonydsouza1484 23 дня назад

Interesting video. Also gold absorbs blue light and reflects a mixture of the remaining colors, which appears as its characteristic yellow hue. Most gold ornaments are alloys because other metals are added.

@vog51 12 дней назад

I was taught way back that the reason metal conducts electricity is because their valence electrons were easily removed when bumped out of place by the atom next to it when current flows. Your explanation at the 11 minute mark saying that mercury's outer most electrons resist change, then why are there still things like mercury relays? They work using mercury as the conductive path to the load. Why is that?

@ArvinAsh 12 дней назад

There is a subtle but important point I made in the video, which is that while Mercury resists sharing (more than other metals), it's still shares more than other elements such as gases. So electrons are still floating around in the metal matrix, just as in all metals, but not are not tied to other atoms so much as to make the matrix immobile as in a solid.

@wojciechwozniak8066 17 дней назад

Great video!

@ZEBULON181 23 дня назад

Thanks for being just at my ability to understand.

@TheYougig 23 дня назад

Brilliantly explained. I've always loved science but standard UK schooling in the 1970's didn't explain any of these finer points to me (apart from the electron shells). It always bothered me!

@RichardMiller-tq6ut 22 дня назад

That was awesome. Thank you

@richarddavie588 23 дня назад

I really like how you display atoms. The nucleus of mercury made something click in my head.

@SBE1 23 дня назад

So, the needed energy to move an electron depends on how close the orbital shell is (closer requires more energy), and if it jumps from an s, p, d, or f orbital to another orbital type. Combine this with the desire to be at a lower energy state by having a full shell, I can see why chemistry has a lot of moving parts. Was a really helpful video.

@emergentform1188 20 дней назад

Love it, hooray Arvin!

@kddixit 23 дня назад

This could also probably be the reason why gold, mercury and lead have higher densities than other metals.

@Tinybabyfishy 22 дня назад

Hi Arvin, In the section on why iron is a solid, you talk about the delocalised electrons lowering the energy of the iron atoms bound into a lattice. If we were looking at this through the lens of quantum fields, would it be valid to say that the average energy of the electron field over all the bound iron atoms is lower than the average energy over each iron atom would be, were they free? I'm not sure if I'm phrasing the question clearly, I hope that it makes enough sense to be answerable.

@olbluelips 22 дня назад

Metals are really interesting, good video!

@patrickmeneses3421 23 дня назад

Faantastic video. Do the charge/radius ratio of these atoms explain some of the properties? I remember something like this from my inorgaanic chemstry lessons.

@vikkris 23 дня назад

Thankyou Arvin, for answering my question in your previous video with this one. Still have one question left: What causes the atomic bond force between to atoms and why does it change with different configurations?

@ArvinAsh 23 дня назад

The answer gets into quantum mechanics. You might enjoy my video here for that where I answered that question: ru-vid.com/video/%D0%B2%D0%B8%D0%B4%D0%B5%D0%BE-azI-_S6g8C8.html

@vikkris 23 дня назад

@@ArvinAsh This video again addresses my question directly... thanks 🙏

@ffc99 22 дня назад

Fantastic! Thanks.

@MapaloNgosa-fk3mq 21 день назад

This is some crazy stuff 😅 great video

@Siddarable 20 дней назад

Thank you it feels as though you made this video in response to my comments on your last video.

@ArvinAsh 20 дней назад

Yes, it was in the works almost immediately after I posted that previous video.

@SumitPrasaduniverse 21 день назад

Great video ❤

@photon434 23 дня назад

Great explanations! I was wondering why the colors absorbed by objects are not also visible because the electron will soon return to its ground state? Isn't this how light bulbs work? I know there must be some flaw in this thinking because everything would emit all colors. 🌈

@knighteen11 22 дня назад

This is really interesting, but I felt like you were going to work your way up to mirrors and how they retain and reflect heat also. Can you do a video on why mirrors get so hot when the seem to reflect all light?

@stevec8861 20 дней назад

The grey solid "iron" is grey becuase it's ~4% by weigh graphite, ~12% by volume. At much lower carbon content, like steel, the iron is very bright silvery colored.

@karhukivi 18 дней назад

Until it oxidises.

@stevec8861 18 дней назад

@@karhukivi Well, yes the surface will rust be it grey cast iron, grey ductile iron or bright silvery steel, but per video, he was talking about pure iron, not color of surface corrosion compounds, and I pointed out grey iron is a composite of iron and graphite and that purer iron, aka steel, is silvery colored, not grey. This becomes a real world problem when someone pulls a steel blasting preparation spec to white or near white metal before applying protective coatings to cast or ductile iron, both of which are grey. Someone not understanding the steel spec doesn't apply to those grey irons will keep blasting away to point of destroying the iron object before figuring out it will never turn white or near white because it isn't steel.

@karhukivi 18 дней назад

@@stevec8861 In alloys, the lattice defects and substitutions create what are known as "colour centres" and these have different probertites of photon absorption to the main metal itself, possibly causing a less than perfect reflection of all wavelengths and giving a grey colour, like lead. The higher the electrical conductivity (e.g. Ag, Au, Cu) the more "shiny" the metal is, whereas the less conductive manganese, lead and iron look more grey. Mercury as always, is an anomaly.

@stevec8861 18 дней назад

@@karhukivi Again, purer iron isn't grey, it's bright and silvery. Grey iron is grey because of high graphite content. The ~4% carbon content was alloyed with the iron in molten state, but upon freezing and slow cooling, the iron and carbon segregate into an iron / graphite composite, with graphite flakes in case of cast iron or graphite nodules in case of ductile iron. But whether cast iron or ductile iron, it's grey because of graphite content. With common steel, the carbon content is low enough the tiny amount of carbon remains alloyed with the solid iron, and clean steel is bright and silvery, not grey like cast iron or ductile iron.

@karhukivi 18 дней назад

@@stevec8861 There are several factors behind colour, carbon in iron is yet another factor as you say. Silver steel and stainless steel also contain carbon as well as other elements like chromium, nickel, silicon, etc. The colours of tempered steel are due to a thin oxide layer which acts like an interference film, much like oil on water or anti-reflection coatings on lenses.