View the complete course at: ocw.mit.edu/8-962S20. Best wishes on your studies!

@meowwwww6350

3 жыл бұрын

Thanks

@abduljabar9676

3 жыл бұрын

SO THANKS ! 🇺🇸©️®️📐💵🔬🔭💳💳💳💳💳💳📐💵📐🇺🇸©️®️📈☎️📉📐🗳🇺🇸©️®️

@mitocw

3 жыл бұрын

@Bob Mama You are right! Typo in the playlist link. Now we need to fix it on the 22 other lectures. 😝

@meowwwww6350

3 жыл бұрын

@@honeymavi628 that's why MIT is world no 1 because they value the student's learning and research,than their marks . But in India they only value getting a job and scoring marks not in interest Students won't fear of exams if you value their learning than their marks - Richard Feynman. And MIT does value their students learning and curiosity than marks

@honeymavi628

3 жыл бұрын

@@meowwwww6350 we are not demanding to cancel but we are demanding to postpone it for more few days in america 97 thousand students got positive after the reopening of the school America being the super power is not able to overcome from this problem How we indians will??? Having more than 1.30 crore population We jee and neet aspirants are about 3 millions, 3*4 =12 millions families ,our government do not think of the students they think of their own There is not even a single tweet from indian PM i dont know what will happen with us all Students on twitter are protesting from many days but the corrupted government is blind

If KZread was a library MIT open courseware channel must be it's most important books shelf.

@physicsmaster

3 жыл бұрын

@@monstersp8331 I think universities all over the world should write to the indian government about delaying exams.

@monstersp8331

3 жыл бұрын

@@physicsmaster thank you for you support but MIT's support is biggest support.

@elonmusk352

3 жыл бұрын

@@monstersp8331 I guess you should send

@bipinaryal1494

3 жыл бұрын

@Yolo 2.0 Haha It's just insane !

@ankitneelkanth5480

Ай бұрын

​@@physicsmaster Brother you please first go and see the Swayam portal and NPTEL portal which is organised by the MINISTRY OF EDUCATION, GOVT OF INDIA

9:03 start - str, 11:07 spacetime manifold 14:16 Event 14:47 Coordinates 16:54 Metric 19:47 Special Relativity 21:07 Inertial Reference Frame 27:08 Einstein 's Synchronization procedure 30:06 Synchronization procedure 35:05 Units of length and time. 38:59 Some geometric objects - start 40:33 Displacement vector? 1:01:58 Spacetime vector

I really appreciate these lectures, as well as other OCW series. Ive always wanted to learn GR but never had the chance during ugrad. I’ve been working through carrol’s space time and geometry but found some sections difficult to tackle on my own. It’s incredibly useful to have a recorded lecture to watch as I work through the material! Thanks OCW!

Lecture starts at 8:50

@thinac

5 ай бұрын

Hero

@sameepsingh4095

3 ай бұрын

Super thanks

MIT is really great to post this. I have been searching the materials for GR from quite a while that this course comes as a recommendation in my KZread. But I wasn't able to find one. Now, I get this one. Thank you a lot!!!

MIT you made my day! Just yesterday I was thinking how good it would have been if MIT had a course on the subject. Thanks!

@princeyt3837

3 жыл бұрын

🎓💋660 P👄7û8 80's o😂pooooo999iooo😂o😂o😀😄💋🤣🤣😝😝😎

@owen7185

3 жыл бұрын

Agreed 💯💯💯

@kunalverma6940

Жыл бұрын

totally agree!

@ihorstepanov7961

11 ай бұрын

me too 😅

It is quit mind blowing that we can acces all this information from such a high ranked university, thank you

Any good relativity textbook is massive enough to have its own gravitational field.... ;-P

@latt.qcd9221

3 жыл бұрын

Any textbook is going to have its own gravitational field. Lol

@amritkumarpatel5717

3 жыл бұрын

Lollol

@amritkumarpatel5717

3 жыл бұрын

A piece of feather will also curve space time . Lol

@judedavis92

3 жыл бұрын

It’s not mass, it’s density

@fahimjunayed5894

2 жыл бұрын

that's exactly why we don't understand anything from it as it doesn't allow any information to escape from it.

All flowed over my head but I am glad that I watched this anyway . Thanks MIT 😇

I think we need to stop and pause sometimes to realise how lucky we are that this is free and available at a click!!

Beautiful lecture. understood nearly everything. Now gonna test my understanding by doing PSets. Thanks MIT OCW. Thanks Prof.

@shivamjalotra7919

3 жыл бұрын

2006 Psets are what are available : ocw.mit.edu/courses/physics/8-962-general-relativity-spring-2020/assignments/index.htm

@danielstanlan1794

6 ай бұрын

@@shivamjalotra7919 late reply but do you know where I can find answers to these Psets?

@shivamjalotra7919

6 ай бұрын

no idea bro@@danielstanlan1794

9:20 Start of: *Special relativity in a form that emphasizes its geometric nature*

@notintheobservableuniverse2594

3 жыл бұрын

Sir, you're a true hero.

Thank you, MIT! I've been taking GR this semester and wasn't getting enough out of the lectures and the textbook to fully understand the material. Having this course available has been an immense help. I'm so grateful for your whole physics OCW library!

Thanks for giving us an opportunity for the preview of your lectures for those of us who can't afford to get admission at your campus, txs

I miss the Commons License lady

@l.berents5753

3 жыл бұрын

Commons License Lady here. 👋🏻 I’m still working behind the scenes to help share MIT knowledge with the world. Use dental floss, wear sunscreen, and share your creativity with a Creative Commons license!

@meowwwww6350

3 жыл бұрын

@@l.berents5753 oh it's you!!! That's amazing!!!! 😲😃😃

@eddie1136

3 жыл бұрын

@@l.berents5753 That's amazing! LOL

@veeradityabishnoi4010

2 жыл бұрын

@sware jinx, you owe me a gum

The manifold discussion was enjoyable to think about, as well as the rest of it.

Thank you, MIT and the educators!

Thanks MIT! I finished 7 MIT physics courses (8.01-8.06 and 8.286) and this is my 8th! Been enjoying it!

@mitocw

3 жыл бұрын

Fantastic!

@meowwwww6350

3 жыл бұрын

That's awesome

What a great lecturer! Super clear

Thank you for sharing the content! Have a nice week ahead. 🙂

thank you for this MIT, My dream school...

For mathematicians, Wald is indeed fine; another suggestion would be Callahan, Geometry of Spacetime. Needham's Visual Differential Geometry with Forms will soon change the way the subject is taught (as his Complex Analysis book did) once enough time passes and enough generations are raised in its greatness - it may be the best textbook in mathematics written in the 21st century so far (and I've read a few), but its focus primarily on diff geo and secondarily on GR may sink it as a singular course text for a grad physics class.

It has been over forty years since I studied General Relativity (MTW and Dirac's thin book). This lecture is a great review for me. --

감사합니다 이런 수업 ㅠㅠ

Nobody: MIT: it's General Relativity time!

Hi, and thanks for the great content! I was wondering if it has been scheduled/planned to upload video lectures on 8.044 Thermodynamics and Statistical mechanics or any other thermodynamics courses since I consider the graduate level course as too hard with no prior knowledge. Also, is there any place where we can see what video lectures are being recorded and coming soon? Again, thanks for all the resources!

@mitocw

3 жыл бұрын

Here's what we have for thermodynamics: ocw.mit.edu/courses/find-by-topic/#cat=science&subcat=physics&spec=thermodynamics. Best wishes on your studies!

@frankdimeglio8216

Жыл бұрын

​@@mitocw THE ULTIMATE AND CLEAR MATHEMATICAL PROOF OF THE FACT THAT E=MC2 IS F=MA: Ultimately and truly, TIME is NECESSARILY possible/potential AND actual IN BALANCE; AS E=mc2 IS F=ma; AS ELECTROMAGNETISM/ENERGY IS GRAVITY. This NECESSARILY represents, INVOLVES, AND DESCRIBES what is possible/potential AND actual IN BALANCE. SO, time DILATION ULTIMATELY proves ON BALANCE that E=mc2 IS F=ma; AS ELECTROMAGNETISM/energy is gravity. The stars AND PLANETS are POINTS in the night sky. A PHOTON may be placed at the center of THE SUN (as A POINT, of course), AS the reduction of SPACE is offset by (or BALANCED with) the SPEED OF LIGHT; AS ELECTROMAGNETISM/ENERGY IS GRAVITY; AS E=mc2 IS F=ma. Great !!! "Mass"/ENERGY IS GRAVITY. ELECTROMAGNETISM/ENERGY IS GRAVITY. Gravity IS ELECTROMAGNETISM/energy. E=MC2 IS F=MA. Consider the man who IS standing on what is the EARTH/ground. Touch AND feeling BLEND, as ELECTROMAGNETISM/energy is gravity; as E=mc2 IS F=ma. GREAT !!! E=mc2 IS F=ma. The linked AND BALANCED opposite of what is THE SUN is A POINT in the night sky. The stars AND PLANETS are POINTS in the night sky. A PHOTON may be placed at the center of THE SUN (as A POINT, of course), AS the reduction of SPACE is offset by (or BALANCED with) the SPEED OF LIGHT; AS ELECTROMAGNETISM/ENERGY IS GRAVITY; AS E=mc2 IS F=ma. This NECESSARILY represents, INVOLVES, AND DESCRIBES what is possible/potential AND actual IN BALANCE. Therefore, the linked AND BALANCED opposite of what is THE EARTH is ALSO A POINT in the night sky. Great. Gravity IS ELECTROMAGNETISM/energy. ELECTROMAGNETISM/ENERGY IS GRAVITY. E=mc2 IS F=ma. Gravity AND ELECTROMAGNETISM/ENERGY are linked AND BALANCED opposites, AS E=mc2 IS F=ma; AS ELECTROMAGNETISM/ENERGY IS GRAVITY. Accordingly, the Earth AND the Sun are linked AND BALANCED opposites; AS E=mc2 IS F=ma; AS ELECTROMAGNETISM/ENERGY IS GRAVITY. Gravity IS ELECTROMAGNETISM/energy, AS E=mc2 IS F=ma. The stars AND PLANETS are POINTS in the night sky. It ALL CLEARLY makes perfect sense. Great !!!!!! Energy has/involves GRAVITY, AND ENERGY has/involves inertia/INERTIAL RESISTANCE. E=MC2 IS F=MA. The EARTH and the SUN thus constitute and comprise what are the MIDDLE AND THE FULL DISTANCE in/of SPACE (IN BALANCE) in full and BALANCED compliance and conformity with the CLEAR and universal fact that E=mc2 IS F=ma, AS ELECTROMAGNETISM/ENERGY IS GRAVITY. Great !!!! It ALL CLEARLY does make perfect sense. (The stars AND PLANETS are POINTS in the night sky.) INDEED, BALANCE and completeness go hand in hand. Now, very importantly, outer "space" involves full inertia; AND it is fully invisible AND black. Great. NOW, OVERLAY what is THE EYE in BALANCED RELATION to/WITH what is THE EARTH. Notice the black space of THE EYE. The stars AND PLANETS are POINTS in the night sky. THE DOME of a person's EYE is ALSO VISIBLE. Now, carefully consider what is the semi-spherical, translucent, QUANTUM GRAVITATIONAL, AND BLUE SKY. Great. E=mc2 IS F=ma. It is CLEAR. THE EARTH is ALSO BLUE (AS WATER). GREAT. "Mass"/ENERGY IS GRAVITY. ELECTROMAGNETISM/ENERGY IS GRAVITY. Gravity IS ELECTROMAGNETISM/energy. INSTANTANEITY is thus FUNDAMENTAL to what is the FULL and proper UNDERSTANDING of physics/physical experience, as E=mc2 IS F=ma; as ELECTROMAGNETISM/energy is gravity. Gravity IS ELECTROMAGNETISM/energy. It ALL CLEARLY makes perfect sense. Inertia/INERTIAL RESISTANCE is proportional to (or BALANCED with/as) GRAVITATIONAL force/energy, as this unifies AND balances gravity AND ELECTROMAGNETISM/energy; as this balances gravity AND inertia. (This clearly explains BOTH F=ma AND E=mc2, AS ELECTROMAGNETISM/ENERGY IS GRAVITY !!!) ACCORDINGLY, gravity/acceleration involves BALANCED inertia/INERTIAL RESISTANCE; AS ELECTROMAGNETISM/ENERGY IS GRAVITY. SO, the BALANCE of being AND EXPERIENCE is essential; AS E=mc2 IS F=ma. Our EXPERIENCE is NECESSARILY that of what is the FULL DISTANCE in/of SPACE, AS we are BALANCED between what are THE SUN AND c (A POINT); AS E=mc2 IS F=ma. The stars AND PLANETS are POINTS in the night sky. SO, a given PLANET (INCLUDING WHAT IS THE EARTH) sweeps out equal areas in equal times; AND this is THEN consistent WITH/as F=ma, E=mc2, AND what is perpetual motion; AS ELECTROMAGNETISM/ENERGY IS GRAVITY. Gravity IS ELECTROMAGNETISM/energy. E=mc2 IS F=ma. BALANCE and completeness go hand in hand. It ALL CLEARLY does make perfect sense. THINK about what is QUANTUM GRAVITY. "Mass"/ENERGY involves BALANCED inertia/INERTIAL RESISTANCE consistent with/as what is BALANCED electromagnetic/gravitational force/ENERGY, AS E=mc2 IS F=ma; AS ELECTROMAGNETISM/ENERGY IS GRAVITY. Indeed, gravity/acceleration involves BALANCED inertia/INERTIAL RESISTANCE; AS E=mc2 IS F=ma; AS ELECTROMAGNETISM/ENERGY IS GRAVITY. Therefore, the rotation of WHAT IS THE MOON matches it's revolution !!! Objects fall at the SAME RATE (neglecting air resistance, of course), AS E=mc2 IS F=ma; AS ELECTROMAGNETISM/ENERGY IS GRAVITY. Gravity IS ELECTROMAGNETISM/energy. Gravitational force/ENERGY is proportional to (or BALANCED with/as) inertia/INERTIAL RESISTANCE; AS E=mc2 IS F=ma; AS ELECTROMAGNETISM/ENERGY IS GRAVITY. Stellar clustering ALSO proves ON BALANCE that ELECTROMAGNETISM/energy is gravity, AS E=mc2 IS F=ma. Magnificent !!! E=mc2 IS F=ma. Is a two dimensional surface or SPACE visible or invisible ? The answer is that it is BOTH. So, the electron AND photon are structureless. A PLANET (INCLUDING WHAT IS THE EARTH) is a balanced MIDDLE DISTANCE form in relation to E=mc2 AS F=ma. A PLANET (INCLUDING WHAT IS THE EARTH) is a balanced MIDDLE DISTANCE form in relation to the Sun AND c (A POINT). The stars AND PLANETS are POINTS in the night sky. E=MC2 IS F=MA. ELECTROMAGNETISM/ENERGY IS GRAVITY. Gravity IS ELECTROMAGNETISM/energy. Gravity AND ELECTROMAGNETISM/energy are linked AND BALANCED opposites, AS E=mc2 IS F=ma; AS ELECTROMAGNETISM/ENERGY IS GRAVITY. BALANCE AND completeness go hand in hand. Very importantly, outer "space" involves full inertia; AND it is fully invisible AND black. E=MC2 IS F=MA. It ALL CLEARLY makes perfect sense. The BALANCE of being AND EXPERIENCE is essential. The INTEGRATED EXTENSIVENESS of THOUGHT (AND description) is improved in the truly superior mind. INSTANTANEITY is thus FUNDAMENTAL to what is the FULL and proper UNDERSTANDING of physics/physical experience. (THOUGHTS ARE INVISIBLE.) It is a very great truth that THE SELF represents, FORMS, and experiences a COMPREHENSIVE approximation of experience in general by combining conscious and unconscious experience. MOREOVER, the ability of THOUGHT to DESCRIBE OR RECONFIGURE sensory experience is ULTIMATELY dependent upon the extent to which THOUGHT IS SIMILAR TO sensory experience. Beautiful. It ALL CLEARLY makes perfect sense. E=mc2 IS F=ma. By Frank Martin DiMeglio

Crystal Clear so far...

Hi mit ocw iam learning physics through your videos very thanks

i can't believe this much information for free, i didn't know

37:16 If you use the old Swedish foot (29.69 cm) you get even closer to a light nanosecond. 😊 (0.965 % error as opposed to 1.017 %)

Really well structured lecture

Very useful during the era of online classes.

Thanks, Thanks... Professor Scott and M.I.T.

Hi Mit please upload the missing videos on exploring black holes

Love the way he teaches

@phenomenalphysics3548

2 жыл бұрын

i expected better

@michaelwesterland1853

Жыл бұрын

I mean no disrespect, but i'm going to stick to the books. IMHO this professor hasn't decided whether he's going to lecture or write on the blackboard. "Today we will ... tap tap tappity tap tap ... be discussing manifolds ... tap tap tap tappity tap ... and ... tap tappity tap tap ... events and ... tap tap tap tappity tap tap ... the metric ... tap tap tap." Not for me, sorry.

Thank you MIT

I remember FORTRAN. And punch cards. And standing in line to submit batch jobs I am old. Lol.

@kwccoin3115

3 жыл бұрын

M W I remember my lecturer argued for whole why such an old language still be used. That is 1979! We are still using it and some subject only.

beautiful lecture! thank you so much! keep it up with the good work xoxo

There is a huge difference in MIT UNIVERSITY Education and MIT OPEN COURSE but MIT OPEN COURSE is better than other College and UNIVERSITY so think that what is inside in MIT i am coming MIT in 2024 It Is my 10th class now but i have seen all lecture from MIT open course Thank you MIT Love from INDIA 😊

MIT OCW inspired me to create content for my own channel, especially on General Relativity. And what a surprise, around the same time I started, OCW created this beautiful series on relativity. Love it.

Thanks for this🤩

@52:00 i think X0 should be x and X1 should be t. Because X0 = t and X1 = X doesnot fit in the formalism there.

Great lecture, very clear and easy to follow 👍

Thank you so much!

Thank you for this.

Very neat lecture. Thanks 😊

Thank you.

Awesome!

I somewhat object to discarding terminology like "covariant" and "contravariant." I agree with your assessment of the value of those terms for understanding the subject matter, but part of your job is to teach these students how to communicate with other professionals in the field.

@AkamiChannel

3 жыл бұрын

I'm sure they'll pick it up. It just can be confusing in the beginning and he wants them to focus on the ideas that are important rather than which is which.

please update the course for Quantum theory I 8.321 as well we have only lecture notes for that no video lectures

lecture starts at 8:50

Nice guy, excellent lecture!

Thanks a lot!I have seen that 8.07 Electromagnetism II is one of the prerequisites of this course.I am wondering would 8.07 be uploaded soon?

@JuanPabloAlfonzo

3 жыл бұрын

Assuming you have done an EM 1 course then you can easily self teach yourself EM 2 using Griffiths EM. It's a very well written textbook for undergrad EM. For EM 2 read chapters 3,4,6, 7.3.4-6, 8 and 9.2. That will essentially give you everything you need. Of course, if you have not taken EM 1 also do chapters 1,2, 5, 7.1, 7.2, 7.3.1, 7.3.2, and 7.3.3. They cover a good intro to vector calculus as well as electrostatics and magnetostatics

@chrisallen9509

2 жыл бұрын

@@JuanPabloAlfonzo Isn’t that missing the section on special relativity? For someone self teaching E&M for GR, I would argue that is one of the most important parts since E&M is a classical field theory, and seeing a coordinate independent way of expressing equations in it will be incredibly useful for GR.

@JuanPabloAlfonzo

2 жыл бұрын

@@chrisallen9509 That's true, I saw that in EM III so I think it slipped my mind when I was putting the chapter list together for EM II

For anyone using the captions, a manifold is a topological concept, not tautological.

best class!!

My favorite unit of measurement is the furlong per fortnight

Love these lectures - thank you MIT. My only nitpick is that these prof's really should have presentations prepared - as a student, I always resented the wasted time of sitting there watching a prof write stuff on a blackboard.

Always Wanted to Study it.

Thank you for uploading. I have just finished watching this lecture. It was fascinating but I fear if this was the boring easy stuff I am going to start struggling in 3-4 lectures time. I have a question. Time was spend defining manifolds, event, metrics, how measurements or length and time are made, etc but no definition of length or time were given. Could these two concepts be defined, please?

@TheMajorpickle01

3 жыл бұрын

Can I ask, have you had any undergraduate education? Moving straight into this kind of mathematics will be very hard as it's usually a 3rd year or master qualification level being taught in GE

@e_m_met

3 жыл бұрын

@@TheMajorpickle01 I've a PhD in computer Science from University of Kent but that was a long time ago and my Maths has gone very rusty since then!

@TheMajorpickle01

3 жыл бұрын

@@e_m_met Oh then you should be very quick up the pickup! I'm a lowely theophys graduate haha. If you are willing to spend a little (or do some googling) there are two fantastic books to do some prereading for this module, "Engineering Mathematics" by KA Stroud, and "Essential Mathematical Methods" by Riley and Hobson. If you are mainly doing this for a dabble i'd suggest the latter! Doing Comp Sci i'd imagine you didn't interact with a ton of tensor, although i'd think you are probably somewhat familiar with vector mechancis. The only essential reading is essentially an understanding of tensor mathematics (which is basically vector notation)

I'm a computer science graduate coming from The Big Bang Theory watching this entire lecture series in COVID-19 lockdown :P

This lecture series is more similar to how F.Shutz teaches it in his book, reccomending Sean Carroll in my opinion is misleading because Sean Carrol's book relies heavily on Abstract mathematical formalisms which can be initmidating to a first time introduction to this topic. Lecture 2 of this series is right out of Shutz chapter on Lorentz transformations. To new students trying to learn this stuff, use Shutz as a main and sean carroll as a complimentary, trust me it will make your life easier. Don't get me wrong, I love sean carrol's book, it has alot especially in the last chapters, he even gets into string theory and anti de sitter space, but as an introduction it has confusing definitions and not enough examples.

Mit please we need the qft 3 course and the manh body problems ,confesante mattter and highly corrrelate systems please please ,maybe quantum theory and that It

It is possible that the lattice clocks are entangled.

at 33:49 I dont understand the word 'synchronise''. Could somebody explain to me what is meant by synchronising the clocks?

thanks

Finally..GR...Big relief :D

Finally we've GR from MIT!

@TranscendentPhoenix

3 жыл бұрын

Chatrapati shivaji sp STOP POSTING THIS COMMENT EVERYWHERE DAWG

I always measure speed as Furlongs per Fortnight

It is not easier to just say that a given structure is a manifold if there is an isomorphism between the structure and (real) space of some dimension?

Hey there, I am here looking for specific proof that gives the result as u=sqrt(r/2MG-1) the velocity measured by an observer static in Schwarzschild metric as we get near to the horizon

48:50 what a save

Please upload Computer Science related courses as well

So how do the two clocks actually synchronise? If the light is reflected by clock 2 -- how does clock 2 sync with clock 1? Or is the pulse not actually reflected, but emitted when the incoming pulse is detected?

@hywelgriffiths5747

2 жыл бұрын

clock 2 sets its 0 time to when it sees the light, and clock 1 sets its 0 time to halfway between when it sends the flash and when it receives it back

Is there an advantage to using chalk and blackboard rather than projecting already composed computer notes which obviously have the advantage of legibility and speed?

51:36 Where do these equations come from

Hmm. Formal foundation. I like it. I'm an old school drop out. I have taken the time out to finally learn a thing or two. Over my life time I have spent 420 hours in therapy for, as one therapist asked "... are you still restlessly searching?" Up to the age of 14 I endured violent abuse (manifold) as remembered by my current IRF. The degradatious event(s) occurred over years, again as seen from my current IRF. The metric has gradually, with the benefit of distance through my desperate attempts at wanting to know Why!? enabled me to reach my current inertia and to now breathe a long sigh of relief, if you can dig it. THANK YOU for crossing the tees and dotting the i's for me (with your noisy chalk🙂). Great lecture.

Where do we find the assigned readings for the course? I couldn't find them on the course website.

@nadarfa9413

Жыл бұрын

Books to buy.

last I checked, the speed of light was roughly 300.000.000 m/s not 300k m/s. Very enjoyable lecture otherwise, thanks alot for making these publicly available.

@NoActuallyGo-KCUF-Yourself

2 жыл бұрын

300,000 km/s

@jessewolf6806

2 жыл бұрын

Same thing

Hi mit please can you say me what textbooks do you use for black holes and cosmology course

@mitocw

3 жыл бұрын

The required textbook for this course is: Carroll, Sean M. Spacetime and Geometry: An Introduction to General Relativity. Cambridge University Press, 2019. ISBN: 9781108488396. See the course on MIT OpenCourseWare for more info at: ocw.mit.edu/8-962S20.

@meowwwww6350

3 жыл бұрын

@@mitocw thanks mit

@meowwwww6350

3 жыл бұрын

@@mitocw for all the cosmology courses?

Time to make sure that I REALLY learned general relativity.

Nice

MIT OpenCourseWare can you please tell which book you are referring to? Thanks

@mitocw

3 жыл бұрын

The required textbook is: Carroll, Sean M. Spacetime and Geometry: An Introduction to General Relativity. Cambridge University Press, 2019. ISBN: 9781108488396. See the course on MIT OpenCourseWare for more info and materials at: ocw.mit.edu/8-962S20. Best wishes on your studies!

@p_square

3 жыл бұрын

@@mitocw Thank you

A good lecture.

In several lectures, the Professor says that he is going to upload certain material to the course website. Does anyone know how to access this material?

@mitocw

3 жыл бұрын

Any materials we have are posted on MIT OpenCourseWare at: ocw.mit.edu/8-962S20. Best wishes on your studies!

How do I watch 8.07- which is the course on Electromagnetism. I really want to get started with relativity here but i read that knowing Electromagnetism is an important prerequisite for this course.

@dhyangandhi4344

3 жыл бұрын

I am unable to find it on KZread

@mitocw

3 жыл бұрын

@@dhyangandhi4344 8.07 has not been recorded on video. There are course materials available at: ocw.mit.edu/courses/physics/8-07-electromagnetism-ii-fall-2012/. Best wishes on your studies!

Does this series completes the whole general relativity from basic to advanced?

@mitocw

3 жыл бұрын

From the course description, "8.962 is MIT's graduate course in general relativity, which covers the basic principles of Einstein's general theory of relativity, differential geometry, experimental tests of general relativity, black holes, and cosmology." Visit ocw.mit.edu/8-962S20 for more information and materials. Best wishes on your studies!

I'm a graduate student and I'm having problems understanding the first lecture, specially with those manifold, metric,, is this normal or I need to work out on something I missed to study during my graduation, help plox

I know this is a graduate course and the answer might be obvious, but do I need to have prior knowledge about special relativity? Or is it included in this course?

@mitocw

10 ай бұрын

The prerequisites for the course are: 18.03 Differential Equations, 18.06 Linear Algebra, and 8.07 Electromagnetism II. See the course materials on MIT OpenCourseWare for more info at: ocw.mit.edu/8-962S20. Best wishes on your studies!

At 53:54 he says "You can read out the components of the lambda matrix from what I've got over there". He was so careful up to this point that I was a bit surprised that he didn't define capital lambda and was confused that he calls it a matrix. As far as I can tell, Lambda_nu is not a matrix but a 4x1 vector which is multiplied by the scalar delta x^nu (resulting in another 4x1 vector). Doing this for nu = 0,1,2,3 and adding together, we still get a single 4x1 vector, that will incorporate the Lorentz transforms if Lambda has the correct coefficients of the delta x's in the Lorentz transform equations. This uses the fact that they are linear in the delta x's. So in the example which he refers to as "what I've got over there", the Lambda_0 vector would be [gamma, -gamma*v, 0, 0] as these are the coefficients of delta x^0. Am I thinking of this correctly?

@adrianwright8685

3 ай бұрын

Lambda is a 4 by 4 matrix, he defines it as having two indices.

Geometry is the highest form of science.

@ 19:16 Unfortunately, General Relativity isn't compatible with Quantum Physics (or v.v.). So our current understanding of reality is based on two theories not being able to communicate with each other. But when you're dealing with black holes, etc. you don't seem to care that much 20:03. "A pretty good job". This really is a personal opinion. Don't believe me? Try this: kzread.info/dash/bejne/haJkucGmp6SdgZM.html (Don't remove this. It will come back again and again ...)

hi everyone...thenks for this course...can i ask which are maths and physics prerequisites for it?

@mitocw

2 жыл бұрын

From the syllabus, "18.03 Differential Equations, 18.06 Linear Algebra, and 8.07 Electromagnetism II Students should also be familiar with Lagrangians and action principles, Green’s functions, and numerical analysis (some homework assignments will require the numerical solution of systems of differential equations)." See ocw.mit.edu/8-962S20 for more info and materials. Best wishes on your studies!

And the lecture begins from 9:02

on the website it doesn't say relativity is a prereq . . . I guess we're doing GR without special

@kashu7691

3 жыл бұрын

He says halfway through that he expects people to have done sr

What are prerequisite for this course?????

@mitocw

2 жыл бұрын

Prerequisites 18.03 Differential Equations, 18.06 Linear Algebra, and 8.07 Electromagnetism II Students should also be familiar with Lagrangians and action principles, Green’s functions, and numerical analysis (some homework assignments will require the numerical solution of systems of differential equations). See ocw.mit.edu/8-962S20 for more info and materials. Best wishes on your studies!

Pursuing my dream BSc without certificate

What prerequisites are required to follow this course?

@mitocw

10 ай бұрын

From the syllabus, "18.03 Differential Equations, 18.06 Linear Algebra, and 8.07 Electromagnetism II Students should also be familiar with Lagrangians and action principles, Green’s functions, and numerical analysis (some homework assignments will require the numerical solution of systems of differential equations)." See the course materials on MIT OpenCourseWare for more info at: ocw.mit.edu/8-962S20. Best wishes on your studies!

@darioventura1803

10 ай бұрын

@@mitocw perfect thank you!

58:02 - I didn't know Michael Penn was teaching GR at MIT now

@mathematicalmonk1427

3 жыл бұрын

I also caught it 😂

@ujjwalb1729

2 жыл бұрын

lmao

@Physics_

2 жыл бұрын

is time stamp wrong i didnt see him?

@seanmacfoy5326

2 жыл бұрын

@@Physics_ ahahaha it was a bad joke - listen to what the lecturer says again xD

@Physics_

2 жыл бұрын

@@seanmacfoy5326 got it mate-"i think it is a good place to stop"😂...... Nice observation

"the speed of light is to incredible precision 1 foot/nanosecond" - is 0.98 (i.e. 2% tolerance) what you call incredible precision or am I missing something?

@NoActuallyGo-KCUF-Yourself

2 жыл бұрын

Yes.