As a child I once remarked to an "old timer" living in a rural area "This is a nice warm, sunny day. It should help the snow melt." He told me "Wind is what makes the snow go fastest."

Really nice connection between kinetic energy of particles and evaporation. That's a good perspective on why evaporation is an endothermic process. Also didn't know about wet bulb temperatures... super interesting and great job again!

Thanks!

Great explanation.I unexpectedly learned more about vapour pressure which is good. One thing I would say is that on a practical level you can always stay cool on an above 35C wet bulb day if you have access to water or any other large thermal mass. Tap water tend to be close to the ground temperature which is almost always cooler on a hot day. I've put my head in a bucket to cool down on hot days when working in high temperatures. Most of the cooling comes instantly as water is a good thermal conductor with a high thermal mass, the evaporative cooling is just a bonus and as you say wouldn't work on a +35C day. If I was trying to cool down someone who was disabled and couldn't put their head in water I would fill a bucket of water and put their feet in it. Even a large body of water such as a sea, lake river, or pond would almost always be cooler than the air temperature so would cool you down. The same is true of other thermal masses such as a large rock or anything connected to cooler ground temperatures such as the base of a building or even a cave.

Very instructive for having a whole picture of every day physics / chemistry. One often has roughly an idea about it but you are filling in the holes in our knowledge. So thanks and carry on, I subscribed.

What I love about your videos the most is that they often align perfectly with my day dreams and musings about chemistry and physics. So many "what if" scenarios and "how does this really work" shower thoughts that you really nail on the head. I love it! I always felt like the practicality of understanding chemistry and physics comes from truly getting a grasp on what's going with molecules on an everyday basis. Thanks so much for your content.

Not new to me, but a great refresher. It's also the best explanation I have seen online. The simple model it builds on people's minds is amazingly powerful. Thanks for devoting the time to creating this video.

I like the way you used the term "thermal mass" instead of the more common (outside of the building trade), and technically proper, "heat capacity". "Thermal mass" is definitely a term that should be popularized. It's really appropriate. You have quite a way with words.

I have generally understood vapor pressure but I always got confused with how the vapor pressure affects the environment if you go down to 1/10 atmosphere. I was confusing evaporation and boiling. I have know I was missing something for over 2 decades. You just explained what I was missing. Fantastic video thanks.

I'm going to share this with my other Refrigeration Techs. Refrigeration is all about evaporation, condensation, superheat, subcooling and it's really nice to know the physics of what's going on. I'm probably going to watch your videos three or four times most of it sinks in. You do such a great job of explaining. You know you're good when you don't even need a chalkboard and you can explain it verbally with minimum graphics. Phenomenal videos thank you so much.

You did a brilliant job explaining evaporation. Highly recommended for students who would like to dive deep into the topic. But I would like to point out that the escaping of CO2 from fizzy drinks is not evaporation, students may get confused.

Great explanation, but one thing needs to be further clarified. After the molecule gets, say, 10 qunata of energy and becomes capable of escaping its connection with other liquids, does it use some of this energy in escaping so that it leaves with, say, 6 quanta because it lost 4 of the 10 to escape the liquid or does it not? Because if not, you would be saying that evaporative cooling cools off surfaces they were on but heats the air in the sense that it increases its average kinetic energy; thus, its temperature.

I live in Brisbane Australia and it is fairly humid in summer. Many people go out and buy evaporative coolers which are next to useless in high humidity. Perhaps you could do a video on cooling mechanisms and the conditions suitable for them. Like your explanations!

Very nice explanation sir. Keep making chemistry videos, I am supporting you.

Just a quick question, at school we were taught that evaporation is at its greatest when there is a big difference in the air versus water temperature. Eg, say the water temperature in scenario A is 30 degrees celsius and the air is 10 degrees celsius, then in scenario B the water temperature is 30 degrees celsius and the air temperature is 40 degrees celsius. When would the most evaporation take place if the humidity and dew point of the air is the same in both situations?

Why has this channel not blown up yet? It will I'm sure of it.

Best explanation of evaporation at the molectular level I've found so far.

watching your inorganic chemisty professor slowly turn into a popular KZbinr is truly a bizarre experience. Regardless, people deserve to understand the mundane phenomena around them, and I can’t think of anyone better to teach them, Doctor.

You are forgetting one thing about evaporation. Even if you reach a wet-bulb temperature of 35C, evaporation doesn't stop. And evaporation still cools down a surface albeit more slowly and at less efficiency. But if you have wind, natural or artificial, it would speed up that evaporation dramatically. And, you can still cool down by immersing your body completely in water (no evaporation but it combats global warming). So, making people fear of global warming is not good when this is easily solved even without air conditioning. Also, the human body is very adaptable. It is shown that physiological response of a person who lives in hot humid tropics is much different from northern temperate acclimatized person during stressful physical activity (you can google the study about this). And, one thing a lot of global warming alarmist forget is that the tropics is the least affected by global warming. Remember that global warming is the average of warming of the Earth. It is the Temperate zones that warm fast while the tropics stays relatively the same. The reason for this is that the tropics already bear the full brunt of the sun whole year round. It cannot heat up anymore that it already has. It is already the most humid areas in the globe. It cannot get any more humid (otherwise it rains out). Of the current global warming temp increase, only 1/3 is attributed to CO2. The rest is attributed to positive feedback of which water vapor is the #1 feedback. If the precipitation in the tropics is already maxed out, then CO2 will not have any additional effect on the tropics. Otherwise, the positive feedback of water vapor would have already made the Earth a hothouse. But that is not the case, therefore CO2 will not affect the tropics in anyway.

this is by far the best explanation on youtube. Thank you for making this video

This is such a relief. I include an explanation of evaporation and condensation in my atmosphere unit for Earth science, including an experiment to investigate evaporation rates. My explanation of evaporation is consistent with this video. I was afraid I was going to have to overhaul my lessons 😅

5:20 It will take a lot longer than a couple of seconds for the humidity in the headspace to be high enough to make the condensation rate equal to the evaporation rate.

You are an incredibly good educator. Thank you.

@4:07 can we use centigrade and degree together? Very nice lecture please upload some on thermodynamics and chemical bonding from basic to advance because those two really bother me.

This video mostly confirmed things that I've already intuited and worked out from what I know. It's good to know that it was pretty much entirely correct since things I intuit are sometimes wrong. The only thing I'm not clear on is the interchanged use of vapor pressure and evaporation rate. My understanding is that they're not the same and that one of them can be affected by pressure. I'll have to look it up to see.

Good video, as usual. But why do you always pull a fast one? In "How to triple the effects of caffeine" the answer turned out to be to switch decaff, at the end of the video. This time, a puzzle is posed (which will dry faster), but no proper answer is given. Is the deeper lesson that we should be unscrupulous?

An additional practical issue is damp elimination in house crawl spaces, why sometimes things just aren't working (see various US climate regions), why damp is worse in winter than summer, etc. The partial issue is the rate of replenishment of 'sensible' water/moisture at the sub-soil interface, and the thermal lag effects that creates and maintains wet areas as cold, so reinforcing the condensation from the atmosphere. Its and area that's not discussed other than in hand waving terms.

As always an excellent video, though I would have liked if You had talked a little about ""relative humidity"" as I believe that is a concept that would "fit in well " in this context, and that is good to grasp as well. Best regards.

Excellent video, the animations really helped alot with explaining at the molecular level. Thank you Could you explain the evaporation through various surfaces? Like a traditional building with solid brick construction and also thee evaporation method of >50mm cavity houses, its a good topic to explore, as vapour is key to these structures, aswell we reside in these places, good video topic. Again Thank You.

While making home made double glazing , always seal it on a cold autumn morning. If you seal if on a warm "dry" day it will be full of water vapour.

Well done. While this vid (and the boiling one) didn’t get down to an atomic level, at which I would _definitely_expect_ to learn something new, I was floored about the characteristics described in your video that explained behaviors that we normally don’t think about (e.g. why boiling temp isn’t exceeded). Great videos, just Subbed!

so in evaporative cooler if we replace pad with sprayers will it be more efficient?

Great video! A truly masterclass! I´ve shared it with my two daughters who are in secondary school. I wish I could have had this sort of material when I was their age. It is so difficult to come up with a view like this just from traditional textbooks! Changes of phases have always fascinated me and never actually fully understood them. Thanks to this and its sister video, now I understand much better the equilibrium between a liquid and its vapor below its boiling temperature and why boiling happens at a certain temperature for a given pressure. But what about ice and liquid water? Why ice and water apparently can only be at equilibrium at 0 C (at 1 atm)? Why isn’t there a wider range of temperatures where ice and water can coexist, like water and vapor between 0 and 100 C? However, ice cubes at -25 C in the freezer tend to stick to one another over time and form big blobs. Is that a sign that even at those low temperatures there’s still some liquid water around the ice cubes shufling molecules around and getting them to re-freeze in the boundaries and gaps between the cubes? I guess this is kind of my letter to Santa asking him to bring me another video on the topic of fusion and freezing.

the explanations here are just amazing man!

I'd like to hear more about the thermodynamics of ground and ocean evaporation and their effects on atmospheric conditions.

326 supports 350 to reduce wet bulbs reaching 35?

7:10 that is valid under "normal" conditions, but not if you compress the gas a lot (like to 1/1000 of it's normal volume).

Thank you. Always a pleasure to learn from you. I don't agree on your climate thinking, but I think coal is only to be used if you can't afford anything else to survive. Mainly because of the particle pollution, not the CO2. Keep up the good work.

Just blew my mind I just wanted to know why water formed on my glass that was very educational thanks !

Perfect video! Thanks a lot! Could you please confirm, if I got it right, the intensity at which surface of something wet at the same temperature will cool down in the environment of different humidity will depend only on the rate of condensation? The closer the rate of condensation to the rate of evaporation the lower be the intensity of cooling? And the rate of evaporation doesn’t depend on humidity level at all?

I couldn't say much more after i read all the beautiful comments other than very well explained 👏 I just have curiosity strongly related to this topic which is how clouds weighing several airliners (jumbo jets) stay uplift or floating as if they are feather wheight and also why they always reach a certain point to gather around or fully condense of a height of approx. 10km?

I hope I get some great teachers like you in university

amazing video, amazing channel. what a great find!

Question: In a bowl of hot soup is the coolest soup on the top of the bowl (surface) or the bottom? My friend says it is on the bottom because heat rises, but I thought the coolest would be on the surface nearest the cool air.

Would we say that dissolved co2 in a solvent evaporates?

Very nice video, can you explain the dew point chart in detail?

Total pressure may not affect vapor pressure, but it will affect condensation rate since collision in the gas phase will transfer energy to the novolatizing pre-existing gas.

Cloud equilibrium altitude is energy based. Saturated air surrounds clouds, absorbing nearly all outgoing long wavelength IR. This returns descending water particles to vapor state, creating buoyancy. The lapse rate causes heat loss at cloud tops, the IR is free to leave as humidity is less at cloud tops.

Can you explain to me why a bucket of anhydrous ammonia of -33 degr C which is depressurized to atmospheric pressure may reach a liquid temperature of -60? Obviously the evaporation of the ammonia cools the remaining liquid in the bucket. But why does the ammonia keep evaporating? I hope you can explain.

How much salt would you have to add to a litre of water to maintain a humidity of 60% in a closed environment?

So on your last example, could it be answered with the difference in the web bulb temp?

does water condense in an open system ( a parcel of air in the atmosphere with no liquid water ) when it reaches its vapor pressure saturation at a given temperature ?

I wish we would report weather and discuss it in wet bulb temps. This is because wet bulb reflects what you actually feel, more directly. Wet bulb temps measure heat sensible and latent enthalpy (heat).

Could you do a video on relative humidity and the moisture content of absorbent materials like wood, and how an equilibrium gets reached?

Finally! A great explanation about this. You could also cover freezing/melting in the same manner, as the principles are the same. I've been teaching these things to my friends and relatives for 20 years. I figured it all out for myself from contemplating the following simple thought experiment: "If I dropped two magnets from the roof of my house, what would be their speed when they hit the ground and sometimes separated? And how would their speed change if the magnetic charge holding them together was much stronger, or much weaker, than a typical magnet?" This thought experiment is really the same problem as molecules sticking together because molecules actually do stick together by magnetism. If I was creating your video, I would have spent more time explaining that heat is stolen from a pool of water when some of it evaporates, (i.e., it gets COLDER when a heat source is HEATING it causing evaporation) and that heat is added to any quantity water when water molecules in the atmosphere condense into it. The same is true of water and ice: the water in a lake gets WARMER when its surface is turning into ICE, and the same lake gets COLDER when the ice on its surface melts. Since that seems impossible to most people, I really enjoy explaining it to them.

Can we affect liquids in a mechanical way, such as irradiating them with waves that resonate destructively with their internal vibration, thereby reducing their kinetic energy causing them to vaporize?

Just found your channel. Thank you, YT algorithm. You are very good at explaining. Of course, I understand this stuff already but your scripts are well done.

does relative humidity makes sense after 100°C? I've read somewhere the max RH actually drops with temperature... Can you help me understand?

Excellent explanation. Thank you.

So we can increase the pressure on the liquid to 100 atm and still it has space to water molecules? It is wt u mentioned. But wt if we increase the pressure too much that, the gas now becomes a supercritical fluid? Does atmospheric pressure doesnt have a role on evaporation at all??????

amazing channel Dr. so informative.

i have a question that where do electrons get energy to spin?

Exactly what i was looking for thank you sir

excellent

I've learned all this stuff at the university, but it's nice to listen again. The concept of vapor pressure is not easy to grasp, you did a good job in explaining it. Further topic: the three ways to reduce humidity at home: heating, dehumidifier or split air conditioner. People really mess this all too often.

Amazing Sirr!! Thank You so muchh! I was so confused about this topic... Its all clear noww!! ToT

Of course I've got questions. The speaker stated an answer (for one of the main initial questions, "more evaporation of water happening in the drying of wet clothes bathed: in cool dry air or in hot humid air?") depends on the differences of the variables; yet he didn't elaborate a sampled graph nor an guessed proportion in between the limited scenarios. Using "sheer words" is relevant to keep touch with our cultures, yet science also involves empirical & imaginative research: if the comparison between the two fictional scenarios resulted in the need to compare further scenarios of each of the two classes of scenarios, then it's reasonable to go for it. "It depends" "on variables" ain't no sciencing no, sir. Please raise the "sciencing frequency" varible then, aye? Such mistification of evaporation ain't making its features more visually watchable in this metaphorical case. Solid samples: that's what was shown in the water-in-container (various) examples. Nicely done, there. Explicitly, my metaquestion is "How's the variance of water-in-cloth evaporation between some iconic samples of surrounding atmosphere?" And by "iconic" I mean common points of "variable measurement" [cohering unit-of-measure-of-difference between 2, 3 or few more conditions of achieved precision with available knowledge and hand-reach] in a full set of crossed combinations (in the mentioned minimalized case, the duo "wet & warm" and "dry & cool" gets accompained by the misssing duo "same dryness & same warmness" and "same wetness & same coolness") (to track-in-mind, shaping a single tetrahedron might work fine, but training such "relativity frame" of 4 objects with 2 bi-variables each is makes the seeming complexity quite straight-forward in post-exercise abstraction). The "iconicness" can be improved by enmeshing further (relevant or irrelevant) variables in the combination set. It's similar to the "beverage evaporation in alternatively-sealed-atmosphere examples, such as the "imaginary submarine tale" or the "bottle simulated toon" or the "lidded and agitated becker-thingy". Thanks. May the humanly-proper coolness be with us. In all scales (of "us"). My cooly haired head is resting in an open refrigerator as I write this brief sentence. Warning is warmonging is warming, sometimes. Diplomatic befriendery rules humanity in ways undifferentiated pressure either compresses (lidded common ground) or mistifies (airs suggestive of dances). The evaporation as metaphor operates in-between said lids. While empty space is perenial, proportional space is relative. This video connects environments. Btw, another question is "What 'Three Twentysix' or/and 'San Nijūroku' stand for?" I've no background to guess the chosen id. Is there a story, a ratio, an expected reaction, a rhyme, a group of theses causes? Dunno; wanna know. What gives?

Humid weather: here in Tunisia we have very hot and humid days and nights in summer and often it is hard to sleep.

Dear Professor Robertson and fellow KZbinrs, with great interest I watched your KZbin video on Evaporation. I am trying to transfer the knowledge to meteorology and in reverse, i.e. condensation. But somehow I am struggling to find the same logic. When you have an air "package" with a certain moisture content that gets lifted up due to temperature differentials, then a wetter air package cools down LESS than a drier air package (dry vs. wet adiabatic cooling). What I don't understand is, where the heat/energy comes from that causes this. If I have a water molecule wizzing around in air with a certain amount of kinetic energy and it gets condensed into an already existing water droplet, then yes, maybe the water droplet gets slightly warmer, but the whole air package itself will have one molecule and all its kinetic energy less (since it is now bound in a water droplet). Therefore: shouldn't it get cooler? How can it then be that the air package itself is getting warmer (or at least less cool) just from condensation? Maybe you can shed some light on where the missing piece is I am overlooking, or even better do a follow-up on the evaporation topic, where you go more in depth on condensation. Thank you !! :)

please make an illustration on transfer and change in energy when hotter air or in this case water molecule cmes out of hot glass and its energy decreases in colder environment

Yes. Even though I knew this 'in theory' it still wasn't until I read the first harrowing chapter of Kim Stanley Robinson's book 'Ministry for the Future' that I really 'got' what exceeding safe wet-bulb temperatures and humidities means for living things on a large scale.

So what i release from my mouth in a cold day is hot water vapour that stick with cold air and condence back to liq droplets so it is mist.😊😊

when water evaporates and it is a cloud then what is the definition of steam?.

I liked the way the vid called the cloud of droplets of water in the air near a kettle, "mist". I haven't heard that before. I always used to just say "steam", knowing I was talking nonsense, and feeling slightly bad about it. Did the author think of that way of putting it, himself?

Global warming is a problem because it is difficult to relocate people (Greenland, Arctic), and because it is difficult to turn around habits. Are we trying to totally reverse the current warming or must we find new ways to live? A bit of both, but there should be much more talk about how to immigrate and create new countries, no war, but cooperation.

Great video.

Excellent explanation of evaluation, well done! I could not follow the political solution however at the end. Mom always told me "close the door, the AC is on, are you trying to cool the great outdoors!?" Fact: more humans die from cold than heat Fact: homeostasis is the bodies' process of adapting to environmental conditions (like temp regulation) As mentioned in the video, humans need the resources to adapt to their environment. I'm with you so far . . but the climate change focus seems misplaced given the desired outcome. Cheap energy makes this possible for the poor. All things being equal we all want clean and efficient energy, of course but if the political action makes energy more expensive for the poor then . . . people will die. The devil is in the details of course with any mitigations or purposed solutions, but the simplistic solution = "cooling the 'great outdoors'" Doesn't it make more sense to give the poor access to affordable energy rather than attempting to 'fix' the planet **if your concern is for people?** This is not an excuse to harm the planet, and long term focus is required, but the argument in favor of human well-being was poorly made. To be fair, the focus of the video is evaporation, so a dedicated video on climate mitigation would be ideal to consider all factors pragmatically. My objection is that a simplistic solution is offered to a complex problem and there's no nuance provided.

This is more of a question than a comment. You mentioned discouraging investors from investing in coal. I was under the impression most coal burning was for the production of electricity. Do you suggest nuclear plants as a replacement or for example investing in scrubber technology. Since even though cutting back on electrical usage may slow the problem with a growing population the problem will still grow?

Interesting video! :) If I was to ask for anything, it would be for more/different examples of vapour pressure: substances with low and substances with high vapour pressure.

Andrew, as a retired chemistry teacher I greatly appreciated the clarity and energy of your presentation. Oh, how dearly I would have loved to have had use of the computer kinetic model; so much better than the clear plastic tube containing ball bearings being energized from the bottom by a motorized cam hitting the rubber base . . that I used to use. However, I was dismayed when half way through you mentioned the issue of high humidity reducing the effectiveness of sweating to cool the human body and did not mention the use of fans (Japanese or otherwise) but rather launched into a "carbon dioxide catastrophically heating our planet" polemic and fueled (pun intended) the fear porn. Such a shame.

i just wanna know how he edit his videos this way? anyone please tell me about it

Wind really does make a difference in melting snow. Nature's simple physics at work!

Nice right up to the point where you bought into global warming. Unfortunately you will find that is not the case. Just plot the temp graphs on a longer timeline (one that does not fit the "carbon tax initiative" goals and you will see that we are nowhere near a global warming scenario. But otherwise good vid.

Como que vaporizadores funcionam? Pois eles não aquecem a água.

Great vid!

Loved the video,found the channel and subscribed though I rarely subscribe😅, Again very thankful to you for the video

Wait, a gas can evaporate? I've never heard that statement made before in my life until now. I've heard of a gas diffusing, or a solid sublimating into a gas, or a gas coming out of or going into a solution, but a gas evaporating? I need an explanation of that please.

I really enjoyed this channel until the political message at the end of this video. All he had to do was stop before spewing his climate alarmist message, but like all radical leftists he could not stop himself. He does a good job of explaining concepts so that the non-scientists can understand, but he just has to get his radical leftist message out there every chance he gets. I have worked with many teachers like him, who use the guise of science teaching to further a political agenda. He is deliberately lying to you about his so-called death by heat armageddon by only telling you part of the truth. He is intellectually dishonest which is not uncommon among people like him who hate western values and the prosperity we enjoy. As for his simple solution, it is the same simplistic solution all thses radical communists propose. The wet bulb temperature is not an absolute outside temperature as he DELIBERATLY leads you to believe. It depends on the relative humidity. It can be as hot as 45°C for example and you will not fall down and die writhing in agony from the heat as long as the relative humidity is below 100%. Granted, it is dangerous and you need to scale back your activity, but you will NOT DIE!

My god you are so immersive

I’m no longer 37 years old, I’m 37 revolutions through. And temperature is no longer temperature, it’s now kinetic energy level of organic chemistry or just kinetic level outside. I shall be labeling my kineticometer and existentially we might as well..after all.. aparently tomatoes are a berry and I now call those lava berries.

Thanks ❤❤❤

so clear !!

Is not the warming the problem, but weather instability. And the more measures to correct it, the more unstable you risk it becoming and get crop failures.

That was tricky... Wind dependent.

So the bubbles that form inside the cold water are not the microbes breathing like I thought it was (laughs) but it is the water evaporating?

Stop press! MIT confirmed the photomolecular effect, published end October 2023, whereby light interacts with water at the air/water boundary and causes very significant evaporation without thermal input! New video please 😊!

Excelent video

The standard method of keeping cool in the Australian summer seems to be drinking enough to sweat ethanol…

Not very light molecules but molecules with weak intermolecular bonding eg alcohol/ether are much heavier than a water molecule but much better at evaporative cooling.

Another banger!