Well, you found me, thank you. I agree that this was an excellent video. If I had one suggestion, it would only be to add weather rhymes when possible. They make memorization easy for most people.
Thanks for this! The thing that I find frustrating about theory books is sometimes they use complex words that you can’t visualize, but an animation makes it a lot easier to understand
Wanted to echo how awesome this video is. It puts all others I looked at to shame for use in a middle school science class. No video has animations that even come close to this. Fantastic!
Think of it this way. When it is cold everyone wants to cuddle with someone when it is hot noone wants to be near each other because they're agitated Atoms/molecules are the same Heat is molecular/atomic agitation When atoms are agitated they are hot and don't want to be near each other, so they DECREASE in DENSITY, and INCREASE in MASS But when atoms/molecules are cold they want to cuddle just like us, they INCREASE in DENSITY and DECREASE in MASS This is why warmer oceans cause sea level rise, because they have decreased density and increased mass Whereas cold water has a tendency to sink more because it has decreased mass and increased density (and salinity adds even more density, see AMOC) So warm air goes over the cold air on a warm front or a cold front because the cold air is like a brick (more density) and the warm air is like a sponge (less density) HOT: density - mass + COLD: density + mass - Gravity pulls most air molecules towards the ground, the lower troposphere, and agitation (warmth) prevents pacification This is why an air packet rises, it's temperature is warmer than the air around it, causing it to be pressurized by that outside air and pushed up to a point where it's temperature matches the dew point temperature (saturation. 100% humidity) initiating the creation of a cloud The air packet rises, building a cloud until the internal temperature matches the external temperature (so an equal/simmilar level of molecular agitation) Heat = molecular/atomic agitation Molecular/atomic agitation = heat That is what heat is! and there are many implications to this I suggest checking out Mel Strongs channel specifically his course in the playlists
@@PilotInstituteAirplanes publishing videos exposes to public opinion. Those clouds remind me msfs ones, perfect if vulcanic ashes but flying on planes and watching yt videos, the real ones are very different and there’s much more variety, my opinion
We hope you enjoy these types of videos. Many more coming soon!
Well, you found me, thank you. I agree that this was an excellent video. If I had one suggestion, it would only be to add weather rhymes when possible. They make memorization easy for most people.
QLCS = Squall line. Spin ups and Derecho
The animation is phenomenal!!! 🤯 Wow I wish more aviation video looked this way.
I wish more science videos looked this way, most atmospheric science (or most fields) is still using 2d drawings to teach people.
I wish more science videos looked this way, most atmospheric science (or most fields) is still using 2d drawings to teach people.
was gonna write exactly the same thing. Brilliant video, straight to the point with awesome animations.
absolutely the best video I have seen on this topic
Really great graphics showing the resulting clouds and storms that result from front interactions!!!
Thanks for this! The thing that I find frustrating about theory books is sometimes they use complex words that you can’t visualize, but an animation makes it a lot easier to understand
Glad it was helpful! 🙌
Awesome video. Animations are fantastic and very explanatory. This is very helpful. Thanks a lot
I don't know what would be of my life if don't were TH-camrs like this! Thanks for the video.
I can finally understand better with this amazing animation! you guys are the best.
Brilliantly simple explanation. Great video.
Your weather graphics are OUTSTANDING......thank you for the great video
I wish all aviation videos were like this! Brilliant animations and straight to the point.
Thank you! 🙌
Learning for PPL, and now I got it! Thank you !!
Great job. THANKS, especially to Greg, but to the other behind-the-scenes experts as well.
Very good and clear explanation with brilliant illustration! Definitely like!
Let’s see: Arial, Times New Roman, Calibri, and I’m pretty sure there’s another one.
Comic Sans, duh!
*font
Smart guy
😆😆😆
Took me a second… but I got it. Hahahah
That took me far too long to get. 😂
Wonderful video and really enjoyable graphics!
Thank you! Helping me very much with ppl theory. Absolute phenomenal video
Happy to help!
Wanted to echo how awesome this video is. It puts all others I looked at to shame for use in a middle school science class. No video has animations that even come close to this. Fantastic!
Very nice, thank you. Also note that these conditions are some of the things that will cause the need for a barometric altimeter to be readjusted.
The animation and background sounds are awesome ❤ even the explanation 😎
what in the high quality vid. this is super cool and very informative!
Yall are great teachers and i appreciate yall very much!
Such a good video, so helpful, thank you
Fantastic visuals and great explanations! On point!
Thank you! 🙌
omg amazing video , thank you so much for this
You are a hero
These videos are better than the ground school videos I paid for from you guys. 🙁
The ground school is getting an update very soon.
Man this video makes me want to learn Faa weather so bad!’ 😮 Amazing job
clears up many questions!
I rarely give likes, let alone comment videos, but I think I will have to find a way to even donate to you, bcuz of how great the video is
What about Eminence Front?
In that one, the sun shines and people forget.
Violent conditions and occluded ground truth
Nice videos, well explained
Awesome video, thanks very much!
Really splendid!
Excellent! Thank you. 🤗
Pure class. Thanks!
Amazing!
That was surprisingly fascinating.
Which app do you use to make these animations? They are amazing!
Amazing
Hey I’ve flown that plane! ❤
Very nice video
Not the front I was expecting but I am not disappointed
awsome
The side views look almost exactly like those in Herbert S. Zim's _Weather._
Woah i never knew different types of clouds had names
What about an Eminence Front?
In that one, the sun shines and people forget.
Do these fronts have backs?
Think of it this way.
When it is cold everyone wants to cuddle with someone
when it is hot noone wants to be near each other because they're agitated
Atoms/molecules are the same
Heat is molecular/atomic agitation
When atoms are agitated they are hot and don't want to be near each other, so they DECREASE in DENSITY, and INCREASE in MASS
But when atoms/molecules are cold they want to cuddle just like us, they INCREASE in DENSITY and DECREASE in MASS
This is why warmer oceans cause sea level rise, because they have decreased density and increased mass
Whereas cold water has a tendency to sink more because it has decreased mass and increased density (and salinity adds even more density, see AMOC)
So warm air goes over the cold air on a warm front or a cold front because the cold air is like a brick (more density) and the warm air is like a sponge (less density)
HOT:
density -
mass +
COLD:
density +
mass -
Gravity pulls most air molecules towards the ground, the lower troposphere, and agitation (warmth) prevents pacification
This is why an air packet rises, it's temperature is warmer than the air around it, causing it to be pressurized by that outside air and pushed up to a point where it's temperature matches the dew point temperature (saturation. 100% humidity) initiating the creation of a cloud
The air packet rises, building a cloud until the internal temperature matches the external temperature (so an equal/simmilar level of molecular agitation)
Heat = molecular/atomic agitation
Molecular/atomic agitation = heat
That is what heat is! and there are many implications to this
I suggest checking out Mel Strongs channel specifically his course in the playlists
Nice work. You don’t need to say “kts per hour”, as a knot is already a measurement of speed. 4:37
I couldn’t find where we said that. It looks like we only use miles per hour in this video.
Well now I need to look up a cloud video
What about fast moving stationary fronts? I used to stump my students with that question!
Those are the best!
what do u mean, if its stationary, how is it fast moving?
2:42
Those in the animation are closer to vulcanic ashes rather than real clouds
Looking forward to seeing your animations and video!
@@PilotInstituteAirplanes publishing videos exposes to public opinion.
Those clouds remind me msfs ones, perfect if vulcanic ashes but flying on planes and watching yt videos, the real ones are very different and there’s much more variety, my opinion
Very good, but a bit fast when you're tired.
What could one do to solve this problem? Hmmm, that is a puzzle 🤡
“Frahhnt”
What about Y fronts 🥴🥴🥴😂😂😂
We'll let you make that video 😂
Shouldn’t you be using knots instead of mph? God…
Both units are used in aviation for a variety of things. Just like using statute miles versus nautical miles.
@@PilotInstituteAirplanes more like just where you’re from. Imperial lol
In France you now have a fifth front: National Front...
Could you just slow down a bit please?
Be sure to use the speed control on the video player to play this at 0.75x if it goes too fast.
Speed control is in upper right hand corner for most TH-cam apps. I didn’t learn about that handy tool until recently, lol. It helps a lot.