How Tiny Formula 1 Engines Make 1000 HP!

**Important Note!** Production cars vs F1 cars: why are F1 cars more efficient? Especially considering my comments in the video about both being impressive, but operating under different rule sets. Several reasons for F1’s efficiency advantage:
1. Quantity - Formula 1 only needs to make a handful of engines for a season. This allows for an attention to detail that you won’t have when producing engine quantities in the millions for production cars. It’s easy to make one efficient engine. Mass production adds complications.
2. Cost - The cost per engine is vastly greater in Formula 1, allowing for opportunities that you don’t have when you’re selling an entire production car for $30,000. Materials, tolerances, difficult manufacturing designs, etc. Relatively speaking, production car engines are very cheap, which limits the design.
3. Reliability - F1 teams are allowed 3 engines per season without penalties, so an F1 engine only needs to last 7-8 races (plus practice & qualifying), meaning about 1,500 - 2000 miles. When your engine doesn’t need to last as long, you can run it closer to peak efficiency, where knock is more prevalent (think high spark advance, leaner air fuel mixtures). It’s worth sacrificing reliability for performance, because the goal isn’t an engine that lasts for 200,000 miles.
4. Rev-Range - F1 engines have a much more defined use case versus road cars. Road cars operate at many different RPM, in many different engine load scenarios. Trying to develop an engine that is efficient across this wide range of use-cases is very difficult. F1, on the other hand, has a much more narrow focus. Create power at full load as efficiently as possible. This means you can pick a region of the engine where it spends most of its time (say 11k RPM) to maximize efficiency.

How the heck does this man make this hugely complicated topic not only supremely interesting, but also understandable. My hat is not just tipped to him in appreciation, but thrown high into the air. An absolutely excellent presentation. Thank you heaps mate.

Imagine if all university lecturers/lectures were this engaging and interesting

What's extra amazing is it appears he did all the sections of this complicated explanation in one take, with no ums, ahs, etc. A masterpiece! So sharp, so impressive!

Seeing that F1 is currently discussing the new engine specifications for 2026, I think it would be awesome if you could talk about the technologies you would want to see implemented(or removed).

This is the best explanation of the MGU-H and modern F1 engines I've seen. After nearly 10 years of commentators trying, they should just bring Jason on to do it.

You are a great educator, breaking down these complex matters so that even us non-engineers can grasp it.

This was so good. I learned so much about formula 1 engines that I was not aware of. Thank you so much. I would love to see you do a comparison of say the old v10s or v12s compared to these new hybrid engines like you do with comparative Corvette engines or something like that. I still miss 20,000 RPMs out of a V12, that sound is just unbelievable. Keep up the excellent work

Jason, thank you for speaking to this F1 vs. Production engine debate. They are both amazing feats of engineering. Neither one is superior, and they both bring great things to the table that both studies improve from. It's not really an Engineers argument to say one is "better" engineering than the next as they have different problems to solve. Love the video!

"Now, they actually state kW, which is a unit of power, not energy. But again, keep in mind this is a mid-pack team, let's cut 'em a little slack" 🤣
Another excellent video, Jason!

You have an amazing ability to deliver enthusiasm in engineering. Really wish you had been my professor back in the day.

I'll never cease to be impressed with how well you present such nuanced topics. I've talked to even car enthusiasts about this very thing and I've seen their eyes glaze over because of how technical and "nerdy" my presenations are. A few months ago I was doing so hardcore thermodynamic calculations and I realized that these engines must be running stupidly lean (my guess was about 2.0 lambda) in order to run the amounts of boost that they do, get anywhere near 1000 hp, and not exceed the max allowable fuel flow rate. I talked about that with some of my car buddies and they were like "there's no way a racecar runs lean. Max power is always rich". I felt vindicated when I saw you pull up that SAE study done by the Renault engineer. Anyways, well done! Keep up the good work!

"Because the metric system is beautiful…” 😂😂😂

This video has made my windy, cold and rain soaked day quite educational, but mostly just simply a fun day. Thanks, Jason!

It's amazing how someone smart enough can teach you so much in just under 20 minutes. Great video, keep it up!

You have outdone yourself here, bravo!
I believe I speak for all of the automobile community when I say that we are extremely fortunate that you happen to be this interested in all of this.

jaw dropped at "keep in mind this is a mid pack team"😂

Wonderful to watch! You remind me of my biology teacher in high school (in the 90s). He was so good at making hand written summary pages / handouts with so much information, totally clear, condensing tons of book material. Simply brilliant. Same with notes on the chalk board, and explanations. Never experienced it since, so this is a nice reminder of what it was like.

I love the detailed explanation in you videos and the fact you back it up with the math. Very informative

Thanks for making such great and interesting videos! I’ve been watching you from the very beginning and it’s amazing how far you’ve come. I’m glad you are able to do something it looks like you really enjoy and are passionate about and be able to educate people in the process. We need more content creators like you!

Congrats to Max for 2023?!?!? 🤣😂
Love your videos but I still hope there's a good title fight for this year! Keep up the great work. It's always a pleasure learning from your explanations.

I love and appreciate how simple you made this extremely complex discussion sound. Great video 👍

Please make this a series breaking down all things F1 like aero, tyres, brakes, diffusers etc
Really enjoyed this, sir!

I remember reading about Honda's advanced stratified charge engine, the CVCC, back in the early 1970s in Motor Trend magazine. It employed the use of a smaller pre-combustion chamber with a rich mixture of gas and air to ignite the leaner mixture in the main combustion chamber. What you're describing with F1 sounds very similar to this concept. This made for an engine in the Civic, with its 12 inch wheels, which achieved 55 MPG; with a carburetor. Having lived through the Arab oil embargo in the early 70s, I was very amazed that Honda was able to achieve that feat. The gas guzzling (truly) full-size cars from Detroit did well to achieve 15-17 MPG on the highway.

Perfect start into the new season with learning new things about the engines.

Been following F1 for over 30 years, and your 14 minute clip explained more to me than all my years of watching the races. Turbo chargers even make more sense now. Thanks.

As always very good and usable video. Thanks a lot buddy!!

College calculus was a challenge for me and I was struggling to comprehend the basic concepts that was until I stopped using the latest and greatest textbooks we were required to buy. I purchased older, much older textbooks that had been abandoned because they were “outdated.” Same calculus but to legitimize the new books they had to come up with different ways to do the same thing and needlessly becoming more complicated. All this is done so the schools and publishers could bilk more money from students. This guy makes a complex subject understandable and fun to learn.

MGU-H is also used in a 4th way, as an electric supercharger.
In qualifying mode, the battery is fully charged, and drives both the MGU-H and the MGU-K, and the wastegate is open for least amount of exhaust back pressure

Another great video! I used to always tell customers who asked "how much boost can I run??" to remember that boost pressure is simply a measure of restriction. A motor with higher VE will make the same power at lower boost. High boost is not a bragging right in and of itself. The primary reason is one that I think is missing from your calculation - the heat generated through compressing air. More boost = more heat. Your calculation seems to assume the extra pressure comes at the same temperature. I.e. 2x pressure = 2x O2 content. But in reality, doubling the pressure adds significant heat, even after intercooling, and decreases charge density. So that "ideal 20psi" may actually require 25-30psi on the gauge to get that same calculated amount of O2 into the chamber. Or not, just a thought :)

This video is next level! Thanks Jason!

Succinct and informative! Thank you, it’s interesting to note ambient temperature as an obvious factor, while not clearly defined in the calculations. It’s something that F1 engineers clearly have to contend with, not just in geography but also generated heat that must be managed. Really great content, I’m excited to see what’s next!

Loved the vid btw, I've watched a lot of your video's and I really like how you actually break the info down and show your calculations. Makes everything a lot simpler to grasp and understand.

For reference a wwii merlin made around 1700 hp at 18lbs boost and around 3k rpm but the engine was the size of a formula 1 car at 27 liters😄

That's exactly why I subscribed to your channel some years ago! Thanks man!

Very interesting video, as are they all. That precombustion chamber seems very similar to Honda's CVCC technology from the '70's.

Awesome video and investigative work. You can see the time and passion you put into your work. Keep it up.

Interesting fact is also that battery can deploy only 4 megajoules (MJ) / ~1.11 kWh per lap to the MGU-K.
So since electric is kinda crucial to have "power advantage" in a race the team and driver have to make really good prediction when to use it⚡
It is more like Re-Volt game than classic race 😄

Thank You Jason.
That's amazing that these little V6 engines achieve 1000 hp.

Needed this video!! Been wondering about this for a while now.

great video as always, concise and well explained. great visual aid too, makes it easier to digest the numbers going on.

This is a must watch for all F1 fans. Excellent stuff. Thanks for this!

Well explained. It will be a joy to watch again.

Great episode! You make very complicated things very simple for us. Thank you. 🙂

That was great. Looks like an exciting year to come in F1!

Amazing! Keep this coming up!! I’m not an engineer, but with your explanations I have a clear picture of what is going on. Great job!

awesome video. loved it and very nicely timed for the season.

Great analysis as always, Thanks!!!

Like how there’s no final chicane on your drawing of Barcelona 😜

Infectious enthusiasm + clear depth and breadth of knowledge + very good speaking skills = the kind of Engineering professor who would turn out BRILLIANT students. Very good sir!

Another great explanation as always!

Great presentation. You just filled in a few blanks for me. Much appreciated.

Honestly, one of three channels I look forward to the most in regards to automotive knowledge. Always look forward to your uploads, especially since youtube is littered with so much garbage info with people trying to get views. Was not disappointed!

Great video sir! If you are open to it .. I'd LOVE to see more formula engineering videos .. actually not just formula but racecar engineering specific videos altogether..
Also it would be very interesting to see a deep dive into some of the ingenious formula 1 engineering solutions that were banned because they were too advantageous or weren't in the so called "spirit of the rules" as they say..
Anyway great job, and thanks for the worthwhile and interesting content. Cheers!

one of the mostinteresnting and well explained lectures i've witnessed. Congrats!!!

Amazing video. Please bring more F1 videos, curiosity and explanations.

God i like how you not only explain facts, and go through data, sources, and research, but you also walk us through your thought process, which is knowing the amount of knowledge you have is in and of itself a great source and also a way of making things more sensical as opposed to raw data, kudos!!

Love the content, seeing this inspires me more to pursue a degree in thermo dynamics and fluid dynamics to eventually work for a racing team. After seeing this it doesn’t seem as daunting and really fun, I can tell you love what you do

Insane! love these videos. thank you for making them.

Very interesting, nice to see the correlation between everything worked out.

Honda used a form of the prechamber ignition called CVCC. Capturing exhaust pressure to generate electricity is an interesting concept. I've wondered how we could capture the residual pressure. You showed the Miller cycle once used by Mazda without calling it by name which is one way of doing it. In the era of steam engines they used several expansion stages to do it. Using the turbocharger is a way to do it but I wonder if it would be as efficient as building another expansion stage into our engines.

Thanks, this was a great overview of all the systems in an F1 power unit.
I read that the MGU-H was or will be scrapped from the specifications due to reliability issues. But definitely interesting to see how it all comes together!

This is one of the best explained videos i've seen. bravo

Nice! Love the explanations. 🎉
So dry and technical. ❤

intresting video, you should also take into consideration oil burn as im sure i heard about this before, using oil from the sump to burn in combustion

Both the deep research into the team's technical data and engineers, as well as the trolling, is absolutely spectacular. Great video.

Fantastic explanation, thanks for sharing

Technically highly meaningful analysis presented in a simple to understand and pleasant way. Very much appreciated! One can explain complex things in a simple manner only when one has full understanding and clarity!

Honda was an early adopter of this technology. Remember the CVCC Honda Civic? CVCC stands for "Controlled Vortex Compound Combustion". It was actually 2 combustion chambers for each cylinder. The CVCC chamber was alot smaller, it included a small thimble size chamber, it's own small valve and valve holder. It was incredibly efficient and those vehicles did not need a Cat converter due to a cleaner and more efficient cylinder burn. This technology is what is probably being used in the RED Bull Honda FI engine that is dominating the circuit right now. Too bad those early CVCC motors had alot of head-gasket problems.

In '79 I performed a major tune up on a Chrysler 318 Lean Burn engine. I followed the instructions carefully, it ran fine after test drive, returned to customer, who was preparing for a long trip. He returned from the trip raving about the economy. I think he said he got around 35mpg. I presumed that it was working well, and he probably eased up on it a bit to test the repairs. But it was rather high for a 318CI V8, automatic, 3 speed. Smokey Yunick built a number of engines and modified the 2.2 Dodge engine. They were rather impressive, and made 220? He made his "Adiabatic" engines and they were something.
75ci V twin, 150hp @7500, 100 at @ 2000? An inline 3, and a V4. The V4 had no cooling system. It made 340hp, and at that point it could run mid class trucks. It was that efficient. You could put your bare hand on the exhaust outlet. Intake temperature post turbo was 450degF. Ran on sour gas as well as avgas. Very fuel efficient, and considering the pressures(big oil), they were never developed. Corporate America is SATAN. There were a lot of other details, but maybe you will seek them out.

Very nicely explained and your passion for the technology really shows in your presentation.

The channel I was looking for . Thx 👍

Thank you for doing all this research and presenting these results. It would be interesting to see what could be done if we took the shackles off and set the engineers loose to find out what could be achieved. How far can efficiency be pushed? What's the limit to power per liter with existing material constraints?

As a Certified Automotive Engineer, you sir, have just made it so simple for us to understand. Thank you!

What a fantastic video. I learned a lot! Thanks

Wow, love your videos. They are unbelievably informative (eye openers) to say the least.

Thanks for presenting values in gallons, etc as well as the metric. I am 80 years old and “grew up” with feet and pounds so I appreciate not having to convert units. I am disappointed that the MGU-H unit is being dropped. The additional energy recovery from the exhaust must be problematic for continually varying loads.

Jason, I love your channel. Wow, so great the way you present it.
I'm 50, and have built many turbo charged cars. So many comments already i wish i knew how to search...., but the discussion isn't about boost pressure at all, it's about air volume being moved by the selected turbo charger compressor.
20 psi on a smaller turbo vs 20 psi on a large turbo is completely different airflow masses and thus horsepower. Most turbo manufacturers have detailed turbo lbs/hr graphs that show the amount of air these turbos move.
It would be amazing to know the f1 turbo compressor lbs per hour (or kg per hour lol) details, and then boost pressure could be then calculated.
Boost pressure is not the relevant data point, it's only relevant when crossed with the compressor specifications at that indicate what air mass is moved at that pressure level, to then deduce horsepower.

Wow…what a great video 👍 both very informative and simple! I appreciated it

Awesome video, thank you very much. Everything made perfect sense and I really enjoyed it

Love the vid - they were doing this in the early-mid 1980s with 1.5 litre V6 engines without electric motors. Renault EF could push out over 1,200 hp

Great video. Over in bike land, the Ducati NA Desmosedici Stradale 90° V4 has a similar bore x stroke, a 14,000 rpm redline and runs a 14:1 compression ratio on premium pump gas. It makes peak torque at 11,000 rpm. In addition to being inefficient to run the F1 engine to max rpm, I'm guessing it slides off the torque curve around the same point as the bike engine.

Very good explanation. I read many and yours is the most compact and understandable

Amazing presentation!

The person that said "Hey, what if we use the turbo to charge up the battery"... Pinnacle of their career so far!

The interesting thing to me is you could adjust the boost purely digitally. If you were allowed a pito tube you can get ambient and static pressure and in theory you can use the electrified turbo to set the boost to be perfect for both the wind and weather conditions (or low pressure/high pressure)

Great presentation!

Thank you for this video. It helps me understand the new combustion cycle.

Very surprised that the required boost level is so low but it makes sense. I think the 1.5 liter turbo engines in the 90s were up to 5 or 6 bar but they did not have any fuel restrictions. Thanks for the remarks on the metric system and on Max Verstappen 😂. Greetings from a dutch guy in the US 👍.

1.4 bars of boost is still very very high to an 18:1 compression ratio engine. and you are right about f1 engines running extremely lean, to the point that the main chamber's mixture is too lean to be ignited with a sparkplug. the main chamber can only be ignited by the heat and shockwave from the combustion of pre-chamber. so realistically they are putting 2.X bars of boost into an 18:1 engine that shifts at 12,500 rpm & have 2 electric systems scavenging waste power. of course it will result in some staggering numbers.

Excellent presentation! I actually followed most of it.

Thank you. Great video.

Outstanding presentation. Perhaps you could reach out to a former F1 Engineer (now retired Ross Brawn) to see if your calculations are close to correct.
I thoroughly enjoy watching F1, love the competition even if my favorite driver doesn't win.
Agreed, congrats to Red Bull's VER & PER. They truly dominated last season. Hopefully it is a tighter battle this season.

I'd love to see a completely unrestricted class as far as engine and chassis designs, with the only rules being that you have to run an entire race on a single tank of fuel, you also are only allowed a single engine for your full season so your engine design has to be both efficient and reliable. I'm guessing that there would be incredible advances in hybrid designs and energy recovery.

thank you thank you thank you, excellent video and explained in simple enough terms that I can comprehend.

I enjoyed your excellent explanation of the operation of the engine and its components.

Hey Jason, as an F1 fan loved the video. I honestly didn’t expect this big of a difference in thermal efficiency between production and F1 engines. This makes me wonder why production engines are not able to achieve such figures. It seems that fuel efficiency would be a top priority for most production engine manufacturers so why is it that production engines rarely reach greater than 35% thermal efficiency? Is it Cost? Reliability? Maybe I am misunderstanding but would love to know more…

Why did you have to throw gallons and pounds into the mix here? There was no need!

This is pretty intresting and nicely explained.

Another great and informative video