One very slight correction for you, and I hope you won’t mind me pointing this out, as you’re creating a very interesting channel here. Congratulations. However, the gravitational attraction from the moon, does in fact cause the earth to move, just like the Earth’s gravitation does to the moon. In actual fact their constituent parts have always been in motion, since the early beginnings of the solar system and this was due in part to their inherent Inertia. The Planets don’t move because of gravity, inertia plays a role in the cosmic dance. They both actually move in an orbit around the barycentre, and it is this revolving motion that causes the tide on the far-side of the earth, because the water there can move slightly faster, since it’s less restricted by the moon’s weaker gravitational effect. Anyhow, it was a nice attempt to explain tides nonetheless. Thanks
You are unfortunately confusing the term, *“Motion”* with the term, **Enabled.”* Their implications are not the same thing under the established laws of Physics, but I’m unwilling to discuss this with you here…since my comments real intention was to highlight the actual existence of a common centre of mass in the Earth-Moon system, which is sadly missing from this almost accurate presentation about tides. Good luck finding the answers you seek.
@@wavydaveyparker Unfortunately U found the above post as an escape route, again, is there any Gravity MOTION on Planet Earth Surface, if yes, name one that's in Physical connection with Matter, as in Attoms and Molecules ?
And once again you are confusing the terms “Gravity” with “Motion.” Try using the correct term for motion instead, which physicists call, “Inertia.” The two are related in the simple mechanism of a working “Waterwheel.” I’m not going to enter into a pointless discussion with you here, as it’s a complete waste of my potential energy.
Such a clear and easy-to-understand explanation! Could you please do an explanation about why the bulges happen in both sides of the earth? I'm still a bit confused. Thanks!
The gravitational attraction from the moon, does in fact cause the earth to move as well, just like the Earth’s gravitation does to the moon. In actual fact their constituent parts have always been in motion, since the early beginnings of the solar system and this was due in part to their inherent Inertia. The Planets don’t move because of gravity, inertia plays a role in the cosmic dance. They both actually move in an orbital motion around a barycentre, and it is this revolving motion that causes the tide on the far-side of the earth, because the water there can move slightly faster, since it’s less restricted by the moon’s weaker gravitational effect. Anyhow, it’s probably best to illustrate the motion of tides in a visual way, but I hope that helped ease your confusion. Thanks!
@@meisyani Thank you very much Meisyani, and you’re more than welcome to comment on my silly cartoon and I’ll be happy to point you in the direction of some correct resource material on the topic. All you’ve got to remember is that there is no stationary position anywhere in the universe, everything is under the influence of external forces and is therefore accelerating. Then again, I might send you the information instead? If you like 😄 please stay safe out there and have a nice day.
General relativity says that the mass of the Earth and the Moon bend spacetime. Due to this curvature they are falling towards one another but constantly missing one another, that is, orbiting one another at their combined center of mass. As both have a radius then they both experience tidal forces. These forces are due to the difference in gravity/spacetime curvature from the side closest to the combined center of mass to the other. Therefore, the water on the Earth will form a bulge on the close side as that side is falling faster than the center of the Earth itself. The bulge on the far side is caused by the center of the Earth falling faster than the far side itself. These sides will experience a stretching. The sides perpendicular will experience a compression. If you were to fall feet first towards some black holes your body experiences the same tidal forces where your feet will have a stronger gravitational force than your head and this can spaghettify (ie stretch and compress) you.
Classical Physics also says, that the mass of an object is a measure of its *inertia* and *inertia* is the agent behind *centrifugal force.* At the centre of the Earth, the *net* tidal acceleration is *zero,* but the tidal force acts from the centre *outwards* forming a tide on the near and far side of the earth, The is no straight line acceleration *towards* anything in a *curved* space-time environment. Cheers.
The full moon has been hypothesized to affect humans in other ways. One of these is that the light from the full moon disrupts REM sleep, which may explain why people are more impulsive or "crazy" during this time
Really nice animations and useful to visualise how tides works with my kids. Some constructive feedback if I may. Videos like this are amazing for education, and I want you be as successful as possible. Unfortunately nearly everything about waves is incorrect and if excluded would have made for a clearer, more precise, and factually correct educational video. You were correct to say that waves (swell) are generated by the wind, however the moon does not generate waves, and waves are not bigger because of high/low or spring/neap tides. The local bathymetry and coastal profile at different tides will effect how waves are shaped at the coast, but not the swell itself. Further, removing language such as “people think X, and X is wrong” would improve clarity. Introducing false ideas just to dismiss them is confusing for kids that never had the false concept to start with. Thank you for all the effort creating this video, I look forward to seeing more!
What an interesting and constructive comment. You’re absolutely right in what you say, and the only thing I’d add, as constructive feedback if I may, is that the Moon does not orbit the Earth. They both orbit the common centre of gravity between the two. Without this balanced motion there would be no tidal force across the Earth’s diameter to cause tides. Anyway, I just wanted to let you know, that I appreciated your words and read them with relish, even if others aren’t interested and just revelled in the beautiful animation. Thank you.
Can you please make some videos on the principles of quantum mechanics like Heisenberg uncertainty principle, wave nature of electron ,quantization of electron, whether we can explain diffraction of electron by assuming electron just as a particle not as a wave and why quantum mechanics is so different from classical mechanics or is it we are missing out on something which is why they are different. Some other topics like electric field, magnetic field and electromagnetic radiation , the concepts related to them in detail. I find your videos very easy to understand so it will be a pleasure if you make video on the above mentioned topics Thank you
The elementary level topics explained so easily than most Social teacher does , fortunately i am lucky to get good teacher🙌👍 Although 6:00 out of context topic but that girl's pic sitting in nature is so calming 😌
I like to think that the moon is just being cheeky, and trying to prank us when there's a new moon phase; but it doesn't know that we know, so it just keeps doing it.
2:50 What causes the high tide on the opposite side (left) of the Earth? It seems the moon's gravity should attract all the water to the moon causing a high tide only on a right side.
That looks like a yummy cake, can I have some please? Anyhow, seeing as you're unlikely to reply on my cartoon. Here's your answer: The gravitational attraction from the moon, does in fact cause the earth to move, in the same way as the earth’s gravitation does to the moon. In actual fact their constituent parts have always been in motion, since the early beginnings of the solar system, and this was due in part to their inherent inertia. The Planets don’t move because of gravity, inertia plays a role in the cosmic dance. They both actually move in an orbit around their common center of mass, called the barycentre, and it is this revolving motion that causes the tide on the far-side of the earth, because the water there can move slightly faster, since it’s less restricted by the moon’s weaker gravitational effect. This all leads to a pushing tractive component of the tidal accelerations, and causes the water to move, and produce the waves we can surf on. It was nice talking to you, and I'll expect my cake to be delivered later? 😋
Beautiful video! I have a question. Why would the moon's gravity affect the water on earth, and not the water in our bodies? We and the oceans are the same distance from earth. Thank you for your work !
It is indeed a beautiful video! But, you said, _“We and the oceans are the same distance from earth.”_ Correct me if I’m wrong here, but I think you meant, _“We and the oceans are the same distance from moon.”_ ?
No, around 5:50 he says the moon can't affect our bodies because we are much closer to the Earth than the moon. But the oceans are also closer to the Earth than the moon, and they are affected by it. Am I missing something?
@@manhalakrami1843 Hey, thanks for replying. I really like chess and would enjoy playing you sometime? 😁 It’s definitely a game of skill and depends on playing the right moves. Which brings us back to tides! 😆 The piece you’re missing is a pinned attack, but don’t worry, because the video makes the same mistake. The Earth and Moon both move around a common centre of gravity. The tide nearer the moon is affected by its gravity and the further side is affected by inertia. The reason our internal fluids aren’t affected, is because we’re much smaller pieces on the ocean chessboard. 😅 If you find “wavy davey’s” chess game, then we’d be happy to explain the rules of the tidal game to you. Take care and checkmate! 😃
In the video it stated that the moon has no effect on us because we are closer to the earth but the water is closer so that part made no sense to me…. Someone please explain
The is no gravitational attraction between the earth and the moon. This was demonstrated by the hammer and feather drop tests on the moon. Look up Galileo's tides theory if you want to know what really causes the tides.
here we go again... gravity is a force or it is not a force, Newton or Einstein. This is why people get confused... it doesn't work for them as curved space-time, they put it as force... or vice versa....
I am 75 yrs young and this is the first time I understand this.
Excellent job...
I'm not tryna be rude but.. YOUNG or OLD ( just a grammar mistake)
Never stop making videos, they are really helpful and have a really high quality. Maje more videos please!!!!
You are doing really great
I wish your channel 1 million subscribers ❤️ just keep hardworking don't lose hope
Answered all my questions and more, much appreciated 👍🏼
Amazing graphics and so well-explained content. Great job man, keep going
This channel is the next Kurzegast
Kurzgesagt
@@amanthatthinkseven your one is edited
@@xninja2369 I don't know why but I wrote it correctly in one go
@@amanthatthinks the channel name is definitely weirdo and not common , it's understandable to make mistakes
It means 'in short'/'in summary' in German
One very slight correction for you, and I hope you won’t mind me pointing this out, as you’re creating a very interesting channel here. Congratulations.
However, the gravitational attraction from the moon, does in fact cause the earth to move, just like the Earth’s gravitation does to the moon. In actual fact their constituent parts have always been in motion, since the early beginnings of the solar system and this was due in part to their inherent Inertia. The Planets don’t move because of gravity, inertia plays a role in the cosmic dance. They both actually move in an orbit around the barycentre, and it is this revolving motion that causes the tide on the far-side of the earth, because the water there can move slightly faster, since it’s less restricted by the moon’s weaker gravitational effect. Anyhow, it was a nice attempt to explain tides nonetheless. Thanks
Can U point to one single MOTION here on Planet Earth that's enabled by Gravity ?
You are unfortunately confusing the term, *“Motion”* with the term, **Enabled.”* Their implications are not the same thing under the established laws of Physics, but I’m unwilling to discuss this with you here…since my comments real intention was to highlight the actual existence of a common centre of mass in the Earth-Moon system, which is sadly missing from this almost accurate presentation about tides. Good luck finding the answers you seek.
@@wavydaveyparker
Unfortunately U found the above post as an escape route, again, is there any Gravity MOTION on Planet Earth Surface, if yes, name one that's in Physical connection with Matter, as in Attoms and Molecules ?
And once again you are confusing the terms “Gravity” with “Motion.” Try using the correct term for motion instead, which physicists call, “Inertia.” The two are related in the simple mechanism of a working “Waterwheel.” I’m not going to enter into a pointless discussion with you here, as it’s a complete waste of my potential energy.
Shouldn't that be your Potential Inertia ?
Have a good day !
Your videos a so good at providing us Lehmans with a visual understanding of some of these difficult to understand topics.
Awesome clear precise and concise content
Very underrated channel 😢❤ thanks for your great videos
Man ! Chef's kiss to that explanation! Everything is crystal clear now . Damn , I'm glad i found this , moon and tides had me real confused 😂
Cheers 🙌
In my country the water completly dissapears on low tide and you can walk on the ocean floor. Great video, you explain things very well!
please do more and more videos like this : ) , your channel deserves millins of subs ,
Loved the Graphics 🎉🎉
Such a clear and easy-to-understand explanation! Could you please do an explanation about why the bulges happen in both sides of the earth? I'm still a bit confused. Thanks!
The gravitational attraction from the moon, does in fact cause the earth to move as well, just like the Earth’s gravitation does to the moon. In actual fact their constituent parts have always been in motion, since the early beginnings of the solar system and this was due in part to their inherent Inertia. The Planets don’t move because of gravity, inertia plays a role in the cosmic dance. They both actually move in an orbital motion around a barycentre, and it is this revolving motion that causes the tide on the far-side of the earth, because the water there can move slightly faster, since it’s less restricted by the moon’s weaker gravitational effect. Anyhow, it’s probably best to illustrate the motion of tides in a visual way, but I hope that helped ease your confusion. Thanks!
@@wavydaveyparker Oh, that answers my confusion. Thanks a lot, I'll take a note of that!
@@meisyani Thank you very much Meisyani, and you’re more than welcome to comment on my silly cartoon and I’ll be happy to point you in the direction of some correct resource material on the topic. All you’ve got to remember is that there is no stationary position anywhere in the universe, everything is under the influence of external forces and is therefore accelerating. Then again, I might send you the information instead? If you like 😄 please stay safe out there and have a nice day.
General relativity says that the mass of the Earth and the Moon bend spacetime. Due to this curvature they are falling towards one another but constantly missing one another, that is, orbiting one another at their combined center of mass. As both have a radius then they both experience tidal forces. These forces are due to the difference in gravity/spacetime curvature from the side closest to the combined center of mass to the other. Therefore, the water on the Earth will form a bulge on the close side as that side is falling faster than the center of the Earth itself. The bulge on the far side is caused by the center of the Earth falling faster than the far side itself. These sides will experience a stretching. The sides perpendicular will experience a compression.
If you were to fall feet first towards some black holes your body experiences the same tidal forces where your feet will have a stronger gravitational force than your head and this can spaghettify (ie stretch and compress) you.
Classical Physics also says, that the mass of an object is a measure of its *inertia* and *inertia* is the agent behind *centrifugal force.* At the centre of the Earth, the *net* tidal acceleration is *zero,* but the tidal force acts from the centre *outwards* forming a tide on the near and far side of the earth, The is no straight line acceleration *towards* anything in a *curved* space-time environment. Cheers.
Amazing video 👏🏼😮❤
The full moon has been hypothesized to affect humans in other ways. One of these is that the light from the full moon disrupts REM sleep, which may explain why people are more impulsive or "crazy" during this time
Really nice animations and useful to visualise how tides works with my kids.
Some constructive feedback if I may. Videos like this are amazing for education, and I want you be as successful as possible.
Unfortunately nearly everything about waves is incorrect and if excluded would have made for a clearer, more precise, and factually correct educational video.
You were correct to say that waves (swell) are generated by the wind, however the moon does not generate waves, and waves are not bigger because of high/low or spring/neap tides.
The local bathymetry and coastal profile at different tides will effect how waves are shaped at the coast, but not the swell itself.
Further, removing language such as “people think X, and X is wrong” would improve clarity. Introducing false ideas just to dismiss them is confusing for kids that never had the false concept to start with.
Thank you for all the effort creating this video, I look forward to seeing more!
What an interesting and constructive comment. You’re absolutely right in what you say, and the only thing I’d add, as constructive feedback if I may, is that the Moon does not orbit the Earth. They both orbit the common centre of gravity between the two. Without this balanced motion there would be no tidal force across the Earth’s diameter to cause tides.
Anyway, I just wanted to let you know, that I appreciated your words and read them with relish, even if others aren’t interested and just revelled in the beautiful animation. Thank you.
Can you please make some videos on the principles of quantum mechanics like Heisenberg uncertainty principle, wave nature of electron ,quantization of electron, whether we can explain diffraction of electron by assuming electron just as a particle not as a wave and why quantum mechanics is so different from classical mechanics or is it we are missing out on something which is why they are different. Some other topics like electric field, magnetic field and electromagnetic radiation , the concepts related to them in detail. I find your videos very easy to understand so it will be a pleasure if you make video on the above mentioned topics
Thank you
The elementary level topics explained so easily than most Social teacher does , fortunately i am lucky to get good teacher🙌👍
Although 6:00 out of context topic but that girl's pic sitting in nature is so calming 😌
1:59 I clicked away when I saw the Earth rotating to the west.
What software u use for animation?
Someone should put a side by side of moon and sun locations along with tidal nodes to show everyone they don’t make sense lol
Thank you 👍
I like to think that the moon is just being cheeky, and trying to prank us when there's a new moon phase; but it doesn't know that we know, so it just keeps doing it.
If moon can attract huge ocean water high and make tide than why it can’t attract other smaller items (car bus truck) which have less weight. ???🧐
Moon and the water on earth are same/similar size
Full moons make you move some fluids around
2:50 What causes the high tide on the opposite side (left) of the Earth? It seems the moon's gravity should attract all the water to the moon causing a high tide only on a right side.
That looks like a yummy cake, can I have some please? Anyhow, seeing as you're unlikely to reply on my cartoon. Here's your answer:
The gravitational attraction from the moon, does in fact cause the earth to move, in the same way as the earth’s gravitation does to the moon.
In actual fact their constituent parts have always been in motion, since the early beginnings of the solar system, and this was due in part to their inherent inertia.
The Planets don’t move because of gravity, inertia plays a role in the cosmic dance.
They both actually move in an orbit around their common center of mass, called the barycentre, and it is this revolving motion that causes the tide on the far-side of the earth, because the water there can move slightly faster, since it’s less restricted by the moon’s weaker gravitational effect.
This all leads to a pushing tractive component of the tidal accelerations, and causes the water to move, and produce the waves we can surf on.
It was nice talking to you, and I'll expect my cake to be delivered later? 😋
Virumandi?? Nammalayya nee 😅❤
Why so few views?
The young girls are busy on onlyfans and the bois chasing skirts.
All water on earth equals the moon
hey please explain more concepts , which blow our mind , only hard core astronomy lovers will subscribe your channel
: )
Great video, but the last part is so out of place lol.
❤
Beautiful video! I have a question. Why would the moon's gravity affect the water on earth, and not the water in our bodies? We and the oceans are the same distance from earth. Thank you for your work !
It is indeed a beautiful video! But, you said, _“We and the oceans are the same distance from earth.”_ Correct me if I’m wrong here, but I think you meant, _“We and the oceans are the same distance from moon.”_ ?
No, around 5:50 he says the moon can't affect our bodies because we are much closer to the Earth than the moon. But the oceans are also closer to the Earth than the moon, and they are affected by it.
Am I missing something?
@enpassant1119 Wanna play chess btw? 😃
@@manhalakrami1843 Hey, thanks for replying. I really like chess and would enjoy playing you sometime? 😁 It’s definitely a game of skill and depends on playing the right moves. Which brings us back to tides! 😆 The piece you’re missing is a pinned attack, but don’t worry, because the video makes the same mistake. The Earth and Moon both move around a common centre of gravity. The tide nearer the moon is affected by its gravity and the further side is affected by inertia. The reason our internal fluids aren’t affected, is because we’re much smaller pieces on the ocean chessboard. 😅 If you find “wavy davey’s” chess game, then we’d be happy to explain the rules of the tidal game to you. Take care and checkmate! 😃
If moon pull the water toward itself why it’s rise at the beach in night?
The moon blocks information from a Casimir effect that allows more energy into the system.
In the video it stated that the moon has no effect on us because we are closer to the earth but the water is closer so that part made no sense to me…. Someone please explain
The is no gravitational attraction between the earth and the moon. This was demonstrated by the hammer and feather drop tests on the moon.
Look up Galileo's tides theory if you want to know what really causes the tides.
Rate tidal wave
Why doesn’t the gravity of sun and moon cancel in full moon when they are opposite to each other
Sun is pulling moon and earth with the same force
The moon and the water on earth are same size. Earth is huge and sun is even huger
Incorrect information on moon effect on human
We are highly influenced by moon
here we go again... gravity is a force or it is not a force, Newton or Einstein.
This is why people get confused... it doesn't work for them as curved space-time, they put it as force... or vice versa....