Why do cylindrical rockets roll?

We live in a wonderful age. I am not talking about space exploration, but the fact that such a quality science video can be produced by enthusiastic individuals and published for free. 30 years ago it would have taken a full production team and the commitment of an entire broadcast network. Great stuff, sir. (And your helpers)

I'm sticking with they roll for fun

KSP really comes to life when used as an educative tool. I love it.

The man loves talking about rockets. It makes it so much easier to listen when the speaker is enthusiastic about the topic. Well Done.

I kinda love how KSP can be used as a tool to demonstrate so many of the basics of spaceflight.

Yup, In Kerbal Space Program, I learned that separatrons and flea boosters arent enough to separate some larger asparagus boosters. You need to constantly roll to keep the next pair of separating boosters parallel with the horizon

"Why do cylindrical rockets roll?" *Because they rock!!!*

First time I see a thumbnail arrow which is actually useful and not spammy

Another great video. At first it seems like a no problem, but you really did a good job explaining why its necessary and how it works.
Moreover i really have to thank you for your ever increasing quality standard; nowadays you live up to your name, cause it is literally out of this world! ;-)

As someone learning 3d animation, the term "gimbal lock" gives me shivers

I skipped watching this video the first time it came up in my recommendations because I guessed it wouldn't be that interesting.
Boy, was I wrong! This was fascinating from start to finish, and I really enjoyed the way you put it all together and summarized at the end. 🙏🙏

Most dads: "Okay are we ready to rock-and-roll?"
Tim as a dad: "Okay are we ready to rocket-roll?"

Man that 20 minutes flew by so fast, and was still incredibly informative and entertaining. Great video Tim!

Wow, the scary part is I actually comprehended almost half of what you just covered. So much to know. I will have to watch all of your videos now that I'm hooked. Great stuff to know! And always remember, Rockets don't fly, they roast the air into submission.

IMU stands for Inertial Measurement Unit not Instrument unit
Please upvote so he can see this

Another great video, thanks Everyday Astronaut. One thing I'm not entirely sure about is the 20% increase of payload capacity of the Space Shuttle (that would be insane!!!!). A few months back I followed the entire open course "Engineering the Space Shuttle" at EdX, and the question "why the SS perfomed the roll maneuver" came up a few times. The engineers doing the talks gave 2 reasons:
1. They were re-using old Apollo launch pad, therefore they were subjected to their limitation and needed to be able to place the vehicle at the right attitude (with the roll maneuver).
2. The aerodynamic engineers figured it out that there was less stress on the orbiter when it was sitting underneath the main tank during the max Q phase (maximum areodynamic pressure), this was because (as you mentioned) the thrust was directed throught the center of the mass of the entire system, therefore the orbiter was somewhat skewed with respect to the flight path.
Funny story (I don't know if it's actually true, but it was stated on the aformentioned course): when Soviet launched their first and only Buran, they too did the roll maneuver. They didn't have to, because their launch pad was capable of giving the right attitude to the vehicles. So american engineers (after the collapse of the soviet union) asked russian engineers: why did you do that roll maneuver??? They replied: "Because you did it" :)

"Stick the pointy end" in the direction you want to go?? I have to go now this highly technical talk is way over my head.

Another amazing explanation of what can be a complicated subject. Always remember, going to space is HARD!
Thanks for putting the time in to make this.

In Soviet Яussia launch pad rolls you 🚀

Thanks. We all really appreciate the obvious time and effort you put into your videos.

You forgot centripetal distribution of fuel / slosh dampening.

I've developed a mild addiction to your videos recently. They make me marvel at the many unexpected challenges of space exploration and at the spectacular engineering ingenuity that overcome them.

Wow Tim! Even an idiot like me can now understand azimuth, pitch, yaw and roll in rockets. You are brilliant sir.

Other world: *turns a rocket to its flight asimuth*
Soviets: *turn a launchpad to rocket's flight asimuth*

This was an awesome video. I watched someone else trying to explain roll a few days ago and came away with more questions than when I started. Brilliantly explained and the summary at the end was perfect.

Hats off, wonderful presentation!!! Thx to anyone helping produce these and to your patrons.

The quality of this channel is simply breathtaking.

10:50
"It's nice to keep it simple"
while literally talking about ROCKET SCIENCE

Finding this at my late age is just thrilling. Let me be clear. I played this three times and i am years away from understanding but i don't care because i love watching and you are a great teacher - You are great and i feel lucky to have found your site. First go up really fast - then sideways really,really fast. Funny Thank You

This could have been a terminally boring video esp. for someone who never even considered why rockets roll. It wasn't...boring, that is. I didn't even realize I had just watched a 20 minute video until someone in the comments mentioned it. Very entertaining and informative. You're a talented teacher.

Tim, I really appreciate that you asked a question on twitter that turned into a whole video. You're one of the best examples of not being afraid to ask what you don't know, especially with some of the idiotic replies you got. The video is fantastic, well produced, great narrated. Thanks again!

Tim: Hey Elon, why was there a big roll in the launch from Vandenberg today?
Elon: That's how I roll...

I don't know how you don't have more subscribers on this channel. Your videos are always so informational! Soon as my kids are old enough to comprehend what you are talking about, they will be watching your channel. Keep up the awesome work!

Just wanted to say thanks, I've always been a space nerd but don't have the math skills to understand engineering speak. You hit the perfect balance of common sense layman terminology but still giving a really precise and comprehensive explanation. Great job and I've learned so much.

This is what a quality video should look like. Amazing explanation and knowledge rich content.
Seriously man, Hats off to your work. You have improved your videos quite a lot.

Speaking of rocket azimuths...
In 2017 Russian "Fregat" booster has failed to deliver some communication sats to the orbit. The launch was happening on the new "Vostochny" cosmodrome, which has a starting azimuth of 168°. Target azimuth for lower stage was 354°. So the lower stage has decided prior to launch: "I need to rotate from 168 to 354, the fastest way is to rotate left by 174 degrees". Target azimuth after separation for upper stage, however, was 344°. So the upper stage has decided before launch: "I'm gonna rotate right by 170 degrees, it's the fastest way". Then after launch when the first stage completed the roll succesfully to the left, the upper stage calculated correctly that it is only 10° to the right from it's target direction, but it already decided on the ground that the fastest way to roll is to roll right... So it started to roll full 350° to the right, but didn't make it before second stage ignition and has gone to the wrong unstable orbit, ditching to the Atlantic Ocean shortly after.
The problem was in the code of booster's navigation system, but it always worked just fine before, because there was never such an unfortunate combination of azimuths.

You helped clarify a lot for me. Thank you.

This is probably my third or fourth time to watch this film because I forgot all the reasons why the rotation you’re the first one to actually explain most all of them if not all of them indeed, Thank you sir for keeping me well educated, love your stuff man!

Wow, you managed to keep my A.D.D. butt in the chair until 20:24. Well done! (This is legit a compliment, in case it sounds smartassy)

Wonderful, WONDERFUL video! Well done! :D

Great job Tim I really enjoy your episodes I grew up in the time of Apollo and ever since have been mesmerized by space!
Thank you

Absolutely answers questions I've had for six decades!!!! Thank you!!!

Loved your channel buddy! When my son learns enough english, he will love it it. Mean while I translate everything to him! Cheers man! Keep up the science!

As someone from that area of Iowa... I feel special lol.

Fascinating! Thanks for digging in and figuring it out!

This was exactly the question, what I wanted to be andwered since a very long time! Thank you very much for your great explanation!

Not only is this well explained, it's answered a question I have asked myself for many years. Great Video

When you forgot to add sepatrons to your SRBs and dont wanna blow up when staging.

Excellent video. Thanks for taking the time to film and edit it and of course for positing it for our benefit. Keep up the good work! -Migs

Amazing video, man. So much info and so clear (nice gfx, they really help) and answered a head-scratcher for me. Thanks!

I love rocket-roll, so put another dime in the soyuz baby!

Great Video, really appreciate your work. :)

I was really impressed with your knowledge!. I am so happy I stumbled onto your page. I absolutely enjoyed this video. Thank you. You just filled my head with knowledge. I had no idea. I knew that rockets rolled and now, I know why.You don’t know what you don’t know.

First time watching your videos! Don't think I've ever subscribed to a channel without watching more than one video, but I did here. It's obvious you put a lot of effort in your research. Love it!! While rocket science is fascinating I just never put much energy towards it because of the other things I am interested. I'm making "space" in my free time for this channel. Thank you, for the spark of Interest. 👍👍👌

Out of clever comments for the day but gotta show love and keep the engagement up for Tim's channel!

@9:48 IMU stands for Inertial measurement unit- basicly combination of multiaxial Gyro/Accel/Magnetometer , every modern phone has IMU chip inside.

Excellent video! My brother and my kids (and both of us too!) watch all of your content. My uncle retired from NASA (in Clear Lake, TX = Houston) a decade and a half ago but we got entrance to Mission Control (guest viewing area) a few times in the 80's to watch Shuttle launches, but he only talked "rocket science" to us, which to kids is essentially static... The way you explain things is easy for even the layman to understand! Thanks!!!

Hey Tim, I grew up watching the Apollo flights and always heard that 'roger roll' callout and just figured that it (the reason) was too technical for us space fans to comprehend. THANK YOU for the explanation! Others might have 'fire hosed' us with too much info but you keep it simple. Your 'friend' Elon just toys with us simpletons (fun) but it's helpful to know why a thing does what it does. My 3 year old granddaughter is at that stage where she asks "but why?" and it occurs to me that we all ask "but why?" all our lifetimes and it's great to be taught and understand. Thank you again Sir!

TIM, you could most likely NEVER figure out all the reasons for the roll program, and CERTAINLY not all the decisions that went into augmenting it. As an engineer, I can tell you that many decisions that are made are never voiced, not even in "lowly" (functionally) design reviews, and certainly never committed to "paper", and most all of them stem from a plethora of competing, often directly contrary, requirements. Payload wants the rocket to weigh nothing, structural want some "factor of safety", aero wants NOTHING anyone else wants, etc. and all with good reasons. I like that the SpaceX guys were "griefing" you on some of it, shows they are interested. With a bit of research, you could find plenty to playfully pick back, I can guarantee you....but with your little "stunt" in the space suit...maybe NOT. Keep up the good work, nice to have someone explaining this stuff to the interested layman with due diligence toward accuracy and reasonable completeness.
Here's a fun one for you. My boss and I were walking out of the building one day, and the group in front of us was trying to figure out where their cars were parked, and started one way, then turned around and went the other. I made a snarky comment, and one of them said something to the effect of "the worst of it is we are the G&C (guidance and control) group". We got a great laugh out of that one.
Back to the original point, I can GUARANTEE you I've made many design choices, hopefully the right ones for good reason at the time, that I will never remember again. ;-) As I often say, old age sucks

Thanks for the explanation 👍 it was thorough and we'll explained

So good. Right in the sweet spot of overview with enough detail for curious minds.

Great video, thank you!! I especially appreciated the summary the end.

Man, you are killing it once again. Excellent in all respect. Keep the videos coming!

Excellent work man!
You and your team are going places!
Far away places! Wink wink;)
Congrats on your trip and I can't think of a more deserving recipient.
Peace

I absolutely LOVE your presentation technique. Young good looking guy with a nice smile, a bit of a beard wearing a t-shirt and baseball cap (at least it's not on backwards), rattling off "rocket science" stuff as if even a second-grader could understand it, with the point being that if one really wants to learn all this stuff it can be done because other's before have. I suspect there's a lot of young folks who watch your presentations (all very interesting), shake their heads in awe, and then turn and say, "Mom, I've decided I'm gonna be a rocket scientist." You wanna call me a nerd, then call me a nerd, because being a nerd is fun and I'm proud of it. Your enthusiasm makes your shows fun to watch. Keep up the good work.

This is informative, inspiring and just pure joy to watch!

Only through the intro and can already tell this is going to be a good video.

🚀 they see me rollin'
They hatin'...

Very helpful my dude! Loving these new videos.

Great vid, great content! You're the real deal, man. Keep up the amazing quality :)

Great video as always. I did want to point out that IMU typically stands for inertial measurement unit, and consists of Accelerometers and Gyroscopes. You'll find em in a whole lot of thing (including in a good percentage of boards in any modern car). They can be pretty small too. But yeah a little nit-picky.

10:47
Stannis Baratheon has entered the chat:
"Fewer"

This is one of those videos I can return to every few months. Love it.

That was the best explanation I’ve ever heard for the roll maneuver. Great video!

Loving the dig deep you do on all things rocket. The animations were outstanding. Super clear and beautifully presented. Oh , and top notch editing. 👍

I always wondered about this too. The V2 was literally pointed in the desired direction by rotating the launch platform, I guess before the days of electronics it only had a primitive pitch control.

Awesome vid. I always wondered about this and now, thanks to you, I know!

I like rewatching this every now and then to keep my knowledge base sharp. What a great presentation.

watched the video 4 times... still haven't got it yet... gonna re watch it 5 more times...
i'll keep you post.

How Air Force Missileers understood the guidance system... The missile knows where it is at all times. It knows this because it knows where it isn't. By subtracting where it is from where it isn't, or where it isn't from where it is (whichever is greater), it obtains a difference, or deviation. The guidance subsystem uses deviations to generate corrective commands to drive the missile from a position where it is to a position where it isn't, and arriving at a position where it wasn't, it now is. Consequently, the position where it is, is now the position that it wasn't, and it follows that the position that it was, is now the position that it isn't.
In the event that the position that it is in is not the position that it wasn't, the system has acquired a variation, the variation being the difference between where the missile is, and where it wasn't. If variation is considered to be a significant factor, it too may be corrected by the GEA. However, the missile must also know where it was.
The missile guidance computer scenario works as follows. Because a variation has modified some of the information the missile has obtained, it is not sure just where it is. However, it is sure where it isn't, within reason, and it knows where it was. It now subtracts where it should be from where it wasn't, or vice-versa, and by differentiating this from the algebraic sum of where it shouldn't be, and where it was, it is able to obtain the deviation and its variation, which is called error.

Man, you're so smart and your videos are so informative and yet still accessible to us ordinary ground dwellers !

With the amount of reasearch you do, you could and should be awarded a honorary degree in Rocket Science.

Roll to azimuth could be 180 degrees around. Alignment was to make the astronauts sink into seat rather than fly up, restrained by safety belts. Other way would be like going over the top of a roller coaster or an outside loop. It also keeps the breakfast down!

🎵They see me rolling, they hatin'...🎵

Thank you for answering a question that I have had since the 1960s,

Hey Tim thank u very much🙏, took a while to understand the science behind rolling of rockets,
had to rewind and watch it again a few times, now that I understand it I feel extra smart.
Great video man👌, keep up the good work👍.

extra points for KSP custom flag -
I learned somthin ^.^

20:40 You forgot one: sometimes, they just roll for fun ;)

This was quality content worth every minute. Thank you. Well done!

Dude! Thank you. You get right to it with the facts I am interested in.

Gotta love how Tim explains it with KSP

15:30 - I think flying parallel to the horizon should give you an additional small amount of lift allowing for a less fuel consuming ascent profile. Since the drag should be roughly the same in perpendicular or parallel configuration, this might be the main reason.
From KSP (with ferram) I personally noticed that the rocket seems to also be more stable if you fly parallel.

Brilliant, insightful analysis. I used to build spacecraft and didn't know most of this stuff. Thanks so much Tim!

I love discovering a "new" channel; and by that I mean a mature one that: *rolls to align it's azimuth, rather than moving it's launch pad, easing the viewers guidance by considering topic structure and streamlining presentation (aerodynamics), orienting the viewer's vantage point for logically sequenced deployment, adding thrust to it's communication of complex data through a stable and understandable downlink.*
...takes a big breath and I think that covers it. New sub - was a physics and astronomy major (w/ art minor). Never worked in the field; spent 20yrs as a working saxman and then 20 more as an advertising photographer. Spirit name: Dances with Squirrels. Cheers~

That was so interesting and being so in depth helped me understand this a lot. I've seen this explained before but your video might help me actually commit this to memory.
I would love a video on azmeuth and inclination and the sperical trig you mentioned. I'm crazy interested in how we pinpoint precise orbits. To the weeds! :)

"A nice simple zero" you say, that is, until somewhere someone forgets an exeption and the computer tries to divide by zero :D

Just happened on this video as a recommended one. Love that you use KSP for your breakdown here man.

Well done! Nice, clear graphics.
Many do not realize orbit isimply falling toward earth, butraveling fast enough that you continually fall beyond the horizon.

"Actually, it is rocket science."

In case you don't want to sit around for 22 minutes to get an answer it's at 5:30. The rocket rolls to align itself with its flight azimuth so that the rest of the launch is reduced to only pitch adjustments.