"We've got two cars driving. They're about to collide which is unfortunate, but that's irrelevant." LOL

There both more factors involved, and more reasons for stiffer suspension. A major factor not discussed are the shocks. In the example above, the rate of wheel movement towards the ground (for the dip) did not factor in the shocks (rebound), nor did the bump example for the stiff spring. It is complicated. Beyond that, stiffer springs help prevent body roll/lean and help keep the tire flat to the ground. Soft springs allow the body to roll, which changes the effective camber of the tire. If you compensate by adding static negative camber, this sacrifices straight line braking... stiffer allows for less static camber. And, stiffer means generally less tire wear (which is a major factor in racing, either for cost or for stint length.) Finally, stiffer also is important for transitions from left turn to right (and vice-versa). Soft cars allow the body to roll from one side to the other and for that to be a large and slow transition. Stiff springs prevent the roll in the first place and switch to the other side faster. Stiffer tends to stabilize more quickly after sudden transitions. So, its quite complicated. There is no best. Generally, for smooth tracks, stiffer is better. Generally, for bumpy tracks, softer is better. (Those comments are to be taken relatively to each other.) Last but not least, driver preference/confidence vary a lot with how the car feels - some like stiffer/firmer (springs and shocks) and some like softer. So while the engineer may say one way or the other is technically or theoretically better, the driver may feel (and perform) better with a different setup. Thanks for considering a complicated and interesting topic.

"We have two cars driving. They're about to collide which is unfortunate..." This cracked me up. Probably because i am quite tired, but still, i thought it was funny that he found that worth mentioning. lol

was staring at his collar the whole time

he really really really likes to explain stuff

so basically, softer springs are better for bumpy roads, and harder springs are better for smooth roads

Thanks to you, I finally know what im doing when im tuning my cars in Forza 4 Horizon. Cheers mate!

Every time I watch your videos like this one, you just make me want to keep my car stock, and just learn how to drive what I have better. So thanks for saving me money lol.

I seriously appreciate someone who can breakdown a subject and explain it clearly thanks @engineeringexplained

2 more reasons why stiff springs work well on the track: 1. To give a driver better feedback with regard to surface changes or communicate tire compliance with the road. So if you hit a spot of gravel vs ice you can feel the changes. 2. Also with higher speeds on a track, impacts from road surface changes or even suspension movement due to braking or cornering causes more travel and uses suspension compliance forcing the shock to operate outside of it's optimum stroke. So stiffer suspension is needed in order for the components to handle higher speeds. Granted your tires still have to be good enough to generate the traction needed to allow for it's proper operation or you can loose more traction because of the loss of compliance.

The fact these videos are free is mind blowing to me. Thanks for all the info you put out there!

I've always loved Colin Chapman's philosophy in car suspension design. Softer springs with long suspension travel always make for a better ride and better grip on rough roads. The main reason why mass production cars are given stiffer springs is because people have the tendency to rely on their perception that cars that roll are more likely to lose grip on a fast turn.

If this dude built an entire car himself it would pull 4 lateral Gs and have a top speed of ∞

Soft if you can handle the roll, since a soft suspension means grip. I've noticed that in some cars, just upgrading anti-roll bars and adding sticky tires improves the handling a much greater amount than when a lowered and stiffer suspension was added.

You really know what you are talking about and your not boring. I appreciate the helpful information.

Top 5 best car channel on KZbin, hands down. The content value is amazing compared to most car channels.

how did i get here from gordon ramsays kitchen nightmares?

0:28 that made me laugh harder than it should have...

great video. i liked the thorough walkthrough of the physics and then the applications with race setup. please do more like that.

Your videos keep getting better! Keep up the good work

There is a very important point you missed, if not the most important. Roadcars are optimized for straight line rolling where load is equally dstributed to both sides of the car. Racecars are optimized for cornering where load is shifted to the outside wheels. So you need to calcualte spring stiffness and damping rate to that amount of load. when you corner with a soft spring, you lose alot of suspension travel right at the start because of body roll, thats because the springs are too soft for that scenario. with a stiffer spring you optimize for higher load, giving you less body roll and more suspension travel remains available mid corner. higher damping rates need to follow the higher spring rates in order to prevent unvanted body oscillating movement.

man, I love these videos.

Thanks, you do a great job reviewing cars and explaining technical subjects

Love your vids Bro....Always spitting that good knowledge. love the math behind the outcome. We need more enthusiast like you.

Very good explanation ! As you know & have to keep it simple for the layman . Shock absorbers , sway bars , bushings & tires etc. are also components of a suspension system & on the track , settings are softer in the wet vs. racing in dry conditions . Thanks for helping alot of people by posting this video !

When you add the effects of compression and rebound dampening (oil damper), this gets much more complicated than just a spring with no damper. In fact, a spring alone does a terrible job of keeping the wheel on the ground. Playing with dirt bike suspension in the good old days of Motocross (using about 12" of travel), I found I actually got a plusher ride with a stiffer spring (front forks, and very little preload on the springs), that still resisted big bumps with less compression dampening, and more rebound dampening (assuming the dampers were set correctly with the stock springs). As for the preloaded travel of a dirt bike, you pretty much want your suspension to have eaten up about 33% of the total travel with you on the bike, no matter what your spring rates are, and that is adjusted by a preload ring that compresses the spring. But, if you add the dampening,--I bet the math work goes up exponentially---but it still has to work as well in the real world, and will need field testing to fix. Sophisticated suspension, (depending on the demands and severity of the application), seems to be one of those things that almost never comes off the drawing table very well. You should look at some of the front forks of MX bikes today. Nobody knows how to adjust them, there are so many knobs and air chambers. But one fork on Yamaha the kabaya (sp) SSS forks, that is over 10 yer old technology, and still uses a spring, romps them all in overall performance and probably every category. You post great stuff young man. I hope there are more like you.

I thoroughly enjoy your videos. Thank you so much for taking the time to make them

Wonderful presentation! Always thought shocks were mostly for a comfortable ride (as in a Cadillac) but finding out it's really about keeping tires on the ground is new to me but makes all the sense in the world.

With all things being equal, softer springs are better on bumpier surfaces (everyday roads) and harder springs are better for smoother surfaces (race track). But that is not entirely true, in race tracks you often have to ride the kerb for the best line and that requires both stiffness and softness at the same time. A good suspension has to be able to achieve both. My current car has suspension that is 3 times the spring rate of the stock suspension, but actually is more comfortable because of the damper design.

I am a bit confused. If we are just looking at spring rate, why aren't we looking at a spring that has enough travel to reach the 20mm? In that case the stiff spring would win, the only reason it loses is because it runs out of travel and gravity has to do the rest as you mentioned. I guess the video is not about preloading the spring and the only source of compression is vehicle weight. If it was preloaded (as almost all passenger cars are, and why spring removal has to be done carefully even when the wheels are lifted off the ground), then the stiff spring should have ~10X faster ground contact in the dip. Your point is very valid on the bump force though.

Really good video and good food for thought. The only thing I would add to this, is particular with regards to racecars as a rough rule of thumb the stiffer the suspension, both in spring and bar the more it will put temperature into the tyre. Consequently when you start running race rubber you always play a delicate balancing act between mechanical grip and ensuring the tyre is up to temp.

That was a good vid, I was one of those people who just randomly assumed stiff springs were better because of their use on race cars. Happy I know the difference between softer and stiffer springs and why they are used.

you should've just yelled "soft!" and then stared at the camera for 4 minutes.

great video as usual but you gotta also count/add that stiffer setup enables car to react faster to driver inputs, especially during direction changes (which is what racing is about)

Nice job with these videos. I am an Engineer by training and still learn a ton from these short videos. Thank You for the good information

I enjoy your videos and your on point most of the time. Thank you for your uploads.

i’ve never gotten confused quicker than watching this video

Roll is not necessarily bad, if it's not excessive. Through suspension geometry (specifically an upper A arm that's shorter than the lower one), wheels can be made to favorably change camber camber angle during roll, for the outside wheel in a turn. It's called "camber gain". Within limits, roll can be beneficial and improve traction in a turn, if the suspension is designed for it. (Roll can raise the center of gravity slightly, but favorable changes in tire camber angle can have a larger effect.) Learned that from a really good engineer at Lotus.

4 those of u who didn't fully understand. What he has explained is the perfect formula to base a suspension set up "coilovers". Thanks to this man and his video I understand completely on how to set up my car the way I want it. There are an infinite amount of spring rate set ups. What it comes down too is your own style of driving to formulate a functional set up for both street and track "AutoX". I'm headed in that direction. I want the best of both worlds because math makes that possible. Thank you for your injenuity.

Thank you very much for SI units! Great video and explanation. Keep on the good work.

Zoinks, this guy's spooky smart, scoob...there's like, no way i can keep up. i wish i had a ham sandwich to like, calm my nerves man...

Thanks for another great video. In the next one, can you explain how the dampers interact with the springs and the combination of the two affects handling? I'm thinking about whether to soften my dampers or not and would like to know what affects it might have.

Another excellent video. Keep up the great work.

I'm surprised people actually still debated this. This was spot on to what I learned in school. stiffer suspension for street driven cars isn't always better. example: I had a 7gen galant that I threw springs (1in front/rear) and adjustable shocks on. Hard cornering was great, but the overall quality wasn't great, especially in the rain. I went through alot of trial and errors before I figured out that soft is safe.

You should do a video on air suspension

"They're about to collide...so that's unfortunate" hahaha😂😂

I love how you explain how stuff works.

Ok you helped us scratch the surface of understanding basic suspension physics. I think it would be great to talk about suspension setup on race cars both on road and off road that would be a very helpful video

sooo... whats better? soft or hard springs?

One thing he didn't address is that softer springs will allow the unsprung weight of the wheel to induce further suspension compression which can cause the tire to lose contact with the road for a longer period of time as it goes through the compression and rebound cycle. A badly washboarded road is a good example. If your soft springs allow the wheel a greater range of motion and a slower rebound, you will have less braking and turning traction with that wheel. If you hit a series of consecutive bumps the tire can bounce up and down on the road like a basketball. No tire has grip when it is in the air. You can compensate with stiffer shocks, but the shock and springs should be changed simultaneously or either can wear out prematurely. This is why it's a bad idea to add lower (shorter) springs while keeping the same shocks. They must have similar driving and handling characteristics and capabilities.

Your videos are awesome, ive learn most of this stuff from your videos.

I love this channel! Excellent explanation!

I didn't have time to watch this video, but it shouldn't be left without a like.

So basically E=mc2 times the Pythagorean Theorem, giving you the lowest common denominator of the Seventh layer of the OSI model.

Never thought of it like that! Your whiteboard drawings are amazing by the way!

I love your videos! I'm going through the pre-engineering classes for math and physics right now and I can only hope to remember half the stuff you explain. lol

Do a video on rim offset

So what's going on with rally suspension? I know they have lots of travel but are they stiff or soft?

Another great explanation. And "...they're about to collide, which is unfortunate, but that's irrelevant..." always cracking me up with these deadpan matter-of-fact one-liners..

This video is great and just touching the tip of the iceberg. If he made a video about all suspension differences it would be hours long not just a quick video to make you think a bit. Thanks man keep em coming!

this is "suspension for dummies 101". Pure basic knowledge. There is much, much more to say about suspension.

Of course the best question is "why not both" --- variable rate springs.

Your vids are the best man. Ur extremely talented.

One of the best among best channel....

I cannot go too stiff because my city is full of "depressions". LOL

Is that spring rate or spring stiffness? or are they both the same thing?

wow, i learnt a lot about springs with this. Got me interested because i have been learning about bicycle rear suspension setup. Thanks a lot, I am gonna apply this new knowledge on my setup experiments!

I really enjoyed this video as I do the rest of his videos

EE, I think you are under-emphasizing the impact roll, dive and squat have on dynamic weight distribution. While softer suspension indeed maximizes grip (everything else being equal), the same soft suspension also results in a huge body roll, which, while turning, results in alot more weight being transferred from the inside wheels to the outside wheel. This causes the overall coefficient of friction to drop, resulting in LESS mechanical grip on smooth surfaces. Another advantage of the stiff suspension, that I believe is important to mention, reducing roll dive and squat allows the driver to control the vehicle more precisely, while going through a turn. It becomes even more important during transitions. (it takes less time for the vehicle to lean into the turn and to "take a set" when the suspension is stiff)

My head still feels the "race suspension" from s friends car. I dont know why anyone wants a race suspension on a daily car

This is an amazing video. I wanted give my car a much smoother feel when I'm driving on dirt roads.

This actually helps me a ton with my mountain bike, this makes suspension sag make a ton more sense.

Progressively wound springs. Best of both worlds.

Ah ha, so that's what Einstein was talking about ?!?

Good stuff jason, learned something new

crazy video bro u r the best on youtube

This could sound bad but i prefer soft on front and stiff on the rear XD lol

I usually enjoy your videos but this one has some bad logic. This is a very very special case, which almost never occurs. That is hitting a bump larger than your suspension droop. I've had cars on 12kg and 10kg springs. Even an FC RX7 with Mcpherson front suspension of almost 1:1 moment arm with 12kg springs would have nearly an inch of droop. Don't know about you but if there's a road with that crazy of a drop, I'm not driving on it! So following that special case you're discounting all the other benefits of stiff springs and claiming that softer springs are better for the street?

I literally had this question yesterday, thank you. We wish - you deliver :D

You are the best my friend keep up the good work.

Seems like you just talked about compression and left out preload and rebound. Your videos are great but to explain the real reasons behind race/street suspension in 6 minutes is impossible.

this is almost as true as 9/11

7 years late but... Never knew this before. Glad the algorithm is doing its job. 🙂

This is a very good explanation about it. Thank you!!!

I think stiff is always better............

What if the driver is 70 kg or 130Kg :D if u have soft springs and the person is heavy... than you get hard springs I think it is personal what the driver like, Comfortable or sport drive

good video very informative as always. Keep it up.

Very informative as usual

Don't forget that stiffer springs are more maniable on the steering input! It helps on fast direction changes like on a chicane, it is more responsive.

Awesome thank you... I learned more about suspension than I ever knew...

Nostalgia. Brings back the good memory on studying the first Physics class exam and A's it.

Jason, first off, a big fan thank you for making these videos for all of us to better understand the engineering behind cars and suspensions, they have been a big help for me in understanding what parts I might invest into my ride. I wanted to ask a clarifying question about the video, which is in reference to the drop that the wheel would have into the hypothetical pothole you discussed in this video. I understand what you were trying to say in the aspect of the importance of keeping all 4 tires on the ground as much as possible and with as much force as possible as this is the point of a suspension. However, what I am struggling with is understanding how the stiffer spring, that only compresses 10mm, would have a harder time hitting the ground compared to the softer spring that compresses 80mm. I struggle with envisioning this as being something that follows other aspects of physics, such as the overall weight of the car, and the speed as to which the wheel hits the bottom of the hypothetical pothole. If the stiffer spring only compresses 10mm and the pothole is deeper than 10mm then that would leave the assumption that the spring does not decompress further than 10mm, which when a car is lifted there is full droop in all 4 wheels, which is in response to the shocks and springs being fully extended and not being under pressure. For what you were saying in the video that the stiffer springs would not either reach the bottom of the pothole in the time that the softer ones would reach would also be assuming that the shocks are not factored into this statement because if what you were saying was the case then a car’s wheel would never experience full droop and would return to the base ride height + the decompression of the spring (10mm). I am confused because the speed as to when that wheel would hit the bottom of the pothole would also be dependent on the speed of the car moving forward + the speed of gravity as the car is being pulled down to the bottom of the pothole. It would sort of question also the speed difference between the spring decompressing and the speed of gravity (both forces would be happening simultaneously, the car falling and the spring decompressing). It also brings into question the force that would be impacted on the fall as well and looking at the spring rate to determine if the car’s force from the fall and momentum would cause the spring to compress more, thus potentially leading to bottoming out. As I see it, and I could be wrong, we have 3 forces in this hypothetical situation (the shocks, springs and gravity) and in “forces” I mean all things that would cause the wheel of the car to move downward in the event of driving over a pothole. All 3 would need to be taken into consideration when discussing the cons to stiffer springs, correct?

man your videos are awesome.

Wow! The physics is reeel! I figured that's what stiff suspension meant, but now I have a better understanding of it. Thanks!

There're 3 basic things who affect each other: Range of spring, spring rate and the shock absorber. Particularly the shock absorbers have to be well matched. For example there are high- and low-speed compression/rebound-stages and also the viscosity of the damping oil matters.

bravo! that explaination was awesome! man thanks!

springs....coils of metal...thats it..... I gotta say, the half course of physics I took, the most amazing thing to me was how refined the concept of a spring is. So simple and so useful. I just love this stuff. Great video! I wish I knew more. Guess I gotta go take a full physics course next....Thanks brother!

Screw school, the only thing I need is your channel

Very instructive! Thank you!

thank you very much.. I was looking for this path to support it.. regards from Mexico.