I Propulsively Landed a Model Rocket! - Eagle
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- Опубліковано 24 чер 2024
- Part 3 out of 3! This is about Eagle and how it is able to land like the SpaceX Falcon 9 and Starship. This video represents 2.5 years of development and testing, I hope you enjoy it!
00:00 Intro
00:28 Rocket Body Outline
01:08 Leg Construction
02:20 Gimbal
03:27 Mustang V2 Flight Computer
03:45 Landing Theory
04:40 Test Flights and Analysis
06:44 Successful Landing!
07:20 Conclusion
Just about everything I've learned to be able to do this has stemmed from BPS.Space and the associated Discord channel. If you haven't seen any of Joe's videos yet, please make sure to do so!
BPS Space Scout F Successful Land: • I Landed A Rocket Like...
/ projecthorizon_mark - Наука та технологія
You're a legend Mark! Great work dude, I'm excited to see if you can get landings to be more reliable! I could only do it once but I'm sure you can dial it in more :)
It was my exact though - is it going to be reliable... I remember your amazing work on it and thought I have a deja vu.
Thank you sir! I think the key is all in the legs. Plan is to target a ~0.5m hover above the ground and let the flight variances play out, but engineer the legs to be able to handle 1m drops reliably. We will see how it goes 😬
I clicked on this video and the first side video I see is made by you! it's called "I sent a 2 stage rocket to mach 3". (also mach 3 is freaking fast).
I know it's challenging, regardless who does it, but not giving you credit is kinda lame, honestly.
@@TheDirtCreature He literally thanked Joe and said the Scout project was the inspiration behind everything at 07:55.
Every time I feel a little too smart, I watch a video like this and get fully humbled. Kudos man, that is truly impressive!
You don't realize how involved it is, until he get's into into it. I mean, the delay from ignition to lift off.🤦♂
As an older fella , who love Estes rockets , that's impressive work my friend ! Congratulations 👍
Dang! No throttle control, no horizontal drift compensation and you got it to land! Thats amazing. Hats off to you :)
Great work. Awesome to see more folks doing propulsive landings. And you're not having to throttle the descent motor, which is a big win.
What a dense video! I've rewatched portions of this dozens of times. I just found your channel a couple hours ago, and after watching your earliest upload, I knew I was in for a meaningful experience. Truly, you have somehow created something that perfectly matches my interests. I'm lucky to find a creator interested in both videography and rocketry! Thanks Marek!
I agree! I'm so tired of videos padded out for ad purposes, this one left me wanting more!
I did the like and subscribe thing here, I'm glad I found this channel.
Great job! It is truly amazing to see the different ways to go about accomplishing such a daunting task!
Awesome job with the landing :) It's so awesome to see more people sticking the landing- good luck on your next attempts!
How the H does this video not have 100k likes at least?! You’re brilliant mate. Keep up the hard work, imma keep up smashing the like and subscribe buttons 🫡✌️.
Thanks for the inspiration ☺️ congrats on the win!
easily the BEST model (of anything) video on UA-cam! GREAT JOB!
Congrats! What a stunning conclusion.
Great thing here is you don't have the ability to control the thrust of the solid state rocket, but was able to achieve decent landing which is amazing!
You are absolutely right, no thrust control, and no motor stop possibility, it's genius.
我突然想到,在火箭着陆时启动陀螺仪不知这能否让火箭不倒地!你能否试试加上个陀螺仪实验一下
Very impressive! Nice use of Wago connectors too!
Well done mate. Just goes to show how awesome humans are who apply themselves like this.
Amazing work! The world needs more people like you.
I remember working with model rockets and entering competitions with school students. Had I access to 3D printing technology, this is a very real direction I would like to have pursued. Congratulations.
That was amazing. Great job and dedication staying with it.
Amazing work there,really impressive results.keep up the great work!!!
Well done! The hardwork - and luck of different types - shows in the results.
Amazing video! Once again!🚀🚀🚀
awesome project. Soooo many things...that if it can go wrong, it will go wrong. you beat'em.
Great work. You and Joe are truly inspiring a new generation of rocket enthusiasts.
Well done. Thats the coolest thing ive seen with rockets. Love it.
Awesome work! Congratulations!!
Congratulations, that is incredibly impressive! You should be proud.
Great work mate! Impressive accomplishment, I'm sure Joey B would be proud :)
Lets goooooo :) Once one crosses the line the others will follow. Welcome to the new benchmark of rocket modeling :) Cheers man!
Hes already not the first. Some other guy did it a year ago. I thought this was going to be that guy again... I'm surprised to see someone else do it already.
@@ebouwman034 The guy that originally did it is now the pinned comment. Maybe we can get them to work together for the perfect model rocket.
How do you not have millions of subscribers, you will definitely make it soon, this content is amazing!
Beautiful, and the ability of eagle to maintain its verticality is impressive!
The succeeded landing is interesting to watch. But i never knew that the journey to make jt work is more fun to be watched. Good video very educational. 👍🏼
This is so cool man. I hope i can find resources online to understand what youre doing in depth. Like all the acronyms of tvc, how to do the simulations, etc
Amazing work! Congratulations
Can't wait to see more attempts. Great stuff!
This is fantastic work. Thanks for sharing.
Incredible work man, its really inspiring
Impressive!! I loved model rockets as a kid, and though I am not an engineer I deeply appreciate engineering and the process to work through gnarly, challenging problems.
Like watching your work.Love the design of those landing legs.
Congratulations! Fantastic work.
Just amazing! Well done sir! I tip my hat!
Super Cool! Rocket Science - Mark, you are a genius!
Super work mark!
I tip my hat to your perseverance and determination to succeed. You're an oak.👏🏼👏🏼👏🏼👏🏼👏🏼
Now that's impressive. Well done.
Great video and rocket. Was really surprised when I saw you only have 6720 subscribers! That's some >100k video editing! Good luck on your UA-cam and rocket journey!
Hey thanks I really appreciate that!
I suspect it is harder to accomplish this on such a small scale than it is on a full-scale Falcon 9.
This project looks great! And also your channel name reminds me of a game i used to play called last horizon
FANTASTIC! With a solid rocket without modulation of power! FANTASTIC
Wow, it's really impressive that you managed to land it without having throttle control. Great job.
Amazing! Fantastic work!
You are brilliant, good luck with your channel.
Amazing work, sir!
Nice job!! Truly a rocket scientist.👍🏻👍🏻👍🏻
Congratulations! Well done!
Congrats dude, i subscribed!
Super epic, congrats on your achievement
Amazing job congratulations👍🏻
Awesome cool! I am certainly impressed!
Very Very cool, great work 👍
This ASTOUNDING! Congratulations.
Congrats! Extremely cool.
BRAVO! Amazing work !!!!
Congrats Mark! I’m a seasoned BPS Signal-R2 user and specialize in using TVC in scale competition models that replicate real life liquid fueled boosters. I’m really interested in your compact gimbal unit that fits in a 75mm without servo cutouts. Could you do a video just about that?
What an inspiration. I am so impressed.
Nicely done!
Awesome work!
I wonder, since you can't time the run time of the landing motor, can you add some little "doors" to clamshell shut on the rocket motor for consistent, properly timed landings?
Similar to the "Reversing" apparatus on a jet engine only not reverse... shooting the thrust out to the sides.
That’s a fantastic accomplishment! Wow!
Next you’ll probably figure out a way to land The Eagle back on your launch pad!!
Literally thrilling!
Congratulations 👏 on the success Mark. May i ask for a follow up video on the simulation ( is that MATLAB you're using 05:29 ?) program that you wrote and model parameters that you used.
Very impressive, Skywalker.
Impressive work!
Nice work! Solid motor too. Wow
Oh! Very well done!
That is a pretty good result ! The video shots were very cool. The next step might be to engineer a leg suspension that is maybe AI driven to compensate for the bounce ? :O)
Well done! Great achievment. Next challenge up. Land it on a target like SpaceX!
There are those in the world who by no fault of their own, will never understand what an amazing achievement this is. well done Sir. Be well.
Now you have me questioning myself. I did think it was amazing, but maybe I didn't think it was amazing ENOUGH. That is by no fault of my own, though.
I'm glad you're education didn't go to waste. You made an amazing toy. I can imagine that you will eventually create things that will benefit humanity.
Amazing work and result. One engineer vs Space Ex’s many👍
Phenomenal, Sir!
Amazing, thanks for sharing
Absolutely awesome!
Genius! Genius plain and simple!
Super impressive!
Fantastic achievement!
I think this is incredible Engineering work 👍🙂😎 clever chap
Great job!
..... and you did that with an SRB?!! that is just crazy, way harder than LP where there is controle.. amazing work!!
Awesome! (Falcon 9 bout to have some serious competition soon)
I am working toward the same results with TVC, though with a methlox rocket
Wow congratulations!
That's awesome! Kudos
This whole time thought you were BPS Space until i saw his comments.. Great Job mann.. This is quite impressive..
Btw is there any way to attached a altimeter or ground sensor that covers or shut the motors someway when it gets close to the ground?
this is insane! awesome
Parabéns pela persistência, e precisão na execução do projeto
Nice Work
this is impressive dude
Very impressive
Pretty good. Pretty, pretty good. Very impressive.
WOW! Congrats!!!!!!!!!!!!!!!!!!
Congratulations!!!
I love the thrust vectoring. Did you consider methods to modulate the landing burn thrust? For example a servo-driven carbon vane that would insert into the combustion stream to spoil some of the vertical thrust? Hopefully without creating more horizontal thrust that the thrust vectoring could compensate for?