a high-schooler from Egypt wants to thank you extremely for your effort exerted in that video, really like words can't help me to thank you enough for this clarifying presentation. Thanks sent from the country of Mo. salah, Giza pyramids ,and Pharaohs
I dont have any exam of geography nor i am good at it. But found it very simple only because of your great art of explaining things in such simple manner
This really pulls together all my questions as to how Scotese got all those tectonic plates moving around. I’m sure there’s other factors but this information has got to be a big one.
Geophysics exam in a few days .It's 2 in the morning and still can't grasp the idea of remanent magnetisation.I honestly can not thank you enough for this video..textbooks always complicate things sigh ..
Thank you. Am studying Physical Geology. This video really clarifies topic. Love Geology, but on one level it makes me feel very small and insignificant. Intriguing and depressing at the same time. : )
Rebecca, I know the feeling. I like that feeling of insignificance. I find it liberating. Do what you love with life, for it matters principally to you alone. Carpe diem!
A remark about your explanation from 9:10 As you know a magnetic pole is where the inclination is 90 degrees. The magnetic field lines, along which a compass needle points, is not (at every given point) a straight line (along the surface of the earth) to the northern magnetic pole. I understand it is a well established pedagogical practice to assert that declination is the angle between the northern magnetic pole and true north, just for the sake of simplicity of explanation, but that does not prevent it from being somewhat inaccurate. The local magnetic field lines are, as you must know, in fact quite chaotic and does not point in a perfect arc straight to the northern magnetic pole. Anyone can easily verify that by reading the charts of the WMM based on reccurring systematic surveys and provided by NCEI. So you cannot pinpoint the historical exact location of the northern magnetic pole by studying sea sediments, you can however identify a local change of direction and also a shift of polarity, which is what I think you actually wanted to explain here.
So this process of tracking the movement of continents using declination and inclination is what Brenner and Fu used to track the speed of the movement of Pilbara Craton?
No idea why my reply won't stick. Trying again today! I read mention of it in "A Brief History of Earth" by Andrew H. Knoll. Not a geologist by any stretch, it sent me running for more info. (Your point about magnetic inclination was the missing piece of the puzzle in my head.) Look for "Paleomagnetic Evidence for Modern-like Plate Motion Velocities at 3.2 Ga," by Brenner et. al. (Not posting link just in case that was the problem with my reply not sticking.)
Do the reversal of the magnetic pole invalidates the assumption of the movement of the continents based on the apparent polar wander path? I mean...since, after paleomagnetic measurements in ancient rocks, we said: "it's not the North magnetic pole which is moving but the continents", how count in the equation the polar reversal phenomenon?
"gpt" - This is the rare excellent question on a RUclips video. Short version: no. Longer version: the polarity is binary: either north-flowing or south-flowing. So the angle of inclination would be identical, even if the arrow of declination is reversed. You can still track where the pole is relative to a given site with the inclination data alone. That said, there is a bit of wobble in the pole's exact position. It's not exactly at the geographic pole, and it doesn't stay put, but moves over time. The key is that that overall motion is relatively limited in extent - it's called "secular variation," and it's analogous to the flicker of a candle flame. On average, a candle flame points upward, and even if there's a slight breeze, it wobbles a bit, but then returns to upright. Similarly (we think), the secular variation in the position of the Earth's magnetic poles also wobbles around a little bit, but always keeps to somewhere close to the geographic north pole, and hence on average can be useful for things like calculating apparent polar wander paths.
@@callanbentley . . . but the drifting of the poles and the presence of less coherent magnetic field fluctuations do complicate the localization, right? My understanding is there's an accelerating drift of the field since about 1990 that is poorly understood.
@@mrfranksan Post 1990 'acceleration' is a short timescale phenomenon - a slight change in rate of movement of the pole that is entirely within our understanding of the general dynamic state of the field, and operating much more rapidly than plate movements.
Great lecture but diagramatical representation is wrong . Magnetic field line arise from north pole and sink into south pole outside the magnet which you have showed opposite.
The earth's magnet is reverse. That's why the north of a magnet hung by a string points to the geographic north of the earth because the earths magnetic south pole is there.
Given its broad application, everyone should understand GEOLOGY - therefore this video has been indexed and a link added by DR-KNOW / iq-2k Information Services - roughly 650 videos have indexed for this series
You should have mentioned that the south magnetic pole is really a magnetic north pole at least with respect to the physics and a bar magnet comparison the terminology threw me off here
Callan, you have a teacher’s manner in your voice which I find ideal. Looking forward to more knowledge from you.
a high-schooler from Egypt wants to thank you extremely for your effort exerted in that video, really like words can't help me to thank you enough for this clarifying presentation. Thanks sent from the country of Mo. salah, Giza pyramids ,and Pharaohs
تنشيط السياحه XD
I dont have any exam of geography nor i am good at it. But found it very simple only because of your great art of explaining things in such simple manner
Once again an outstanding progression of the ideas. Puzzle pieces flying into place from many jumbled memories. Thanks.
Thanks a million times! I have the exam and this made me more understand in Paleomagnetism.
This really pulls together all my questions as to how Scotese got all those tectonic plates moving around. I’m sure there’s other factors but this information has got to be a big one.
Geophysics exam in a few days .It's 2 in the morning and still can't grasp the idea of remanent magnetisation.I honestly can not thank you enough for this video..textbooks always complicate things sigh ..
9 year back and still relevant thankyou Callan from India cheers
Thank you. Am studying Physical Geology. This video really clarifies topic.
Love Geology, but on one level it makes me feel very small and insignificant. Intriguing and depressing at the same time. : )
Thank you so much! I am strudying studying structure of the earth just out of curiosity and this really helps.
Very well explained! Thank You
this was such an interesting video! made it extremely fun to learn geology thank you!
Thanks for solving the huge quiz of mag reversal
Wow, what a fantastic presentation! Thank you so much.
Rebecca, I know the feeling. I like that feeling of insignificance. I find it liberating. Do what you love with life, for it matters principally to you alone. Carpe diem!
Super excellent!
Very very interesting! Can these spots of decreased magnetic fields be related to certain parts of the ice sheets melting?
बहुत सुंदर व्याख्या आपके द्वारा की गई है सर
Excellent presentation! Thanks for making it. Btw, is there any chance to get this slide pictures? Many thanks.
thank you that was really helpful
Thank you Mr. Bentley, excellent presentation. How quickly are the reversals accomplished? Are they instantaneous, span several days or several years?
can you please upload a video which tells us why seismic waves travel in the interior splits into two waves( S& P waves)?? thanks
A remark about your explanation from 9:10
As you know a magnetic pole is where the inclination is 90 degrees. The magnetic field lines, along which a compass needle points, is not (at every given point) a straight line (along the surface of the earth) to the northern magnetic pole. I understand it is a well established pedagogical practice to assert that declination is the angle between the northern magnetic pole and true north, just for the sake of simplicity of explanation, but that does not prevent it from being somewhat inaccurate. The local magnetic field lines are, as you must know, in fact quite chaotic and does not point in a perfect arc straight to the northern magnetic pole. Anyone can easily verify that by reading the charts of the WMM based on reccurring systematic surveys and provided by NCEI. So you cannot pinpoint the historical exact location of the northern magnetic pole by studying sea sediments, you can however identify a local change of direction and also a shift of polarity, which is what I think you actually wanted to explain here.
So this process of tracking the movement of continents using declination and inclination is what Brenner and Fu used to track the speed of the movement of Pilbara Craton?
Not familiar with that particular study. Link?
No idea why my reply won't stick. Trying again today!
I read mention of it in "A Brief History of Earth" by Andrew H. Knoll. Not a geologist by any stretch, it sent me running for more info. (Your point about magnetic inclination was the missing piece of the puzzle in my head.)
Look for "Paleomagnetic Evidence for Modern-like Plate Motion Velocities at 3.2 Ga," by Brenner et. al. (Not posting link just in case that was the problem with my reply not sticking.)
Do the reversal of the magnetic pole invalidates the assumption of the movement of the continents based on the apparent polar wander path? I mean...since, after paleomagnetic measurements in ancient rocks, we said: "it's not the North magnetic pole which is moving but the continents", how count in the equation the polar reversal phenomenon?
"gpt" - This is the rare excellent question on a RUclips video. Short version: no. Longer version: the polarity is binary: either north-flowing or south-flowing. So the angle of inclination would be identical, even if the arrow of declination is reversed. You can still track where the pole is relative to a given site with the inclination data alone. That said, there is a bit of wobble in the pole's exact position. It's not exactly at the geographic pole, and it doesn't stay put, but moves over time. The key is that that overall motion is relatively limited in extent - it's called "secular variation," and it's analogous to the flicker of a candle flame. On average, a candle flame points upward, and even if there's a slight breeze, it wobbles a bit, but then returns to upright. Similarly (we think), the secular variation in the position of the Earth's magnetic poles also wobbles around a little bit, but always keeps to somewhere close to the geographic north pole, and hence on average can be useful for things like calculating apparent polar wander paths.
Callan Bentley Makes perfectly sense! Thanks for your answer
@@callanbentley . . . but the drifting of the poles and the presence of less coherent magnetic field fluctuations do complicate the localization, right? My understanding is there's an accelerating drift of the field since about 1990 that is poorly understood.
@@mrfranksan Post 1990 'acceleration' is a short timescale phenomenon - a slight change in rate of movement of the pole that is entirely within our understanding of the general dynamic state of the field, and operating much more rapidly than plate movements.
Excellent.
Great lecture but diagramatical representation is wrong . Magnetic field line arise from north pole and sink into south pole outside the magnet which you have showed opposite.
The earth's magnet is reverse. That's why the north of a magnet hung by a string points to the geographic north of the earth because the earths magnetic south pole is there.
God bless you man.
Thank You.
Given its broad application, everyone should understand GEOLOGY - therefore this video has been indexed and a link added by DR-KNOW / iq-2k Information Services - roughly 650 videos have indexed for this series
Science is fun!
Donut shapes have holes. Maybe it looks closer to a bagel that's so fat it has no hole.
Thanks
tomorrow is the exam covering full syllables am i legend...XD
You should have mentioned that the south magnetic pole is really a magnetic north pole at least with respect to the physics and a bar magnet comparison the terminology threw me off here