Go Kart Shock Position EXPLAINED! | TYRANIS TIPS

My dude came out of the flames and hit em with "i didn't see you there" 😂😂

I can tell this channel is going to grow quickly. The production quality is very good, and the projects themselves are even better.

I really love your explanation

Great video and explanation on the physics, mate. Cheers! 👍

ive been looking for a simple video that explained angle and force for over a week and couldnt find anything. tysm, it helped me out tons.

Great explanation, very informative.. I love your videos!! Keep up the great work!! 👍🏻

First time I’ve learned trig since high school😂 glad to know I can still sort of follow along😂👍

This is crazy cool. Resparked my interest in math. I can't wait to use this in the future. I'm saving this video to my go cart playlist. THANKS, MAN!

Man!!!!!! Thank you for this.

Thank you so much a quick and dirty shop math solution to a problem I was looking to solve.

This was the 1st of your videos I have watched, phonominal explaining and if I were to guess what career path you have chosen, I would say that you were an instructor at a college somewhere. Thanks and look forward to watching more of your videos.👍

Very well explained...much appreciated 👍..

Wow, you explained it so well and had me so engaged I was surprised when the 16 minute video ended. I swear it was only 5 minutes. Great job.
Question with some backstory: I'm considering turning my SUV into a full independent suspension, lite-prelander with dual rate coil overs. I also want to remove the sway bar to strike the best balance between chassis anti-roll and A-arm suppleness on the trail. If I were to run a very stiff primary spring and rather supple secondary spring as far outboard on the A-arm as possible, had the shock mounted perfectly vertical (in reference to the ground), and the lower control arm had, say, a 15 degree drop under 0 degrees (perpendicular to the floor), would I be able to generate enough natural "low speed compression" stiffness on my primary spring to drastically reduce my chassis roll while maintaining "low enough high speed compression" values in the secondary speing to keep the suspension supple in turns?
Not sure if you can even answer that question. If you need me to clear anything up just ask.

well done

I’m building a custom power wheels so this will be very helpful!

Nice job. How wide is your rear axle?

Thanks i learn something today🥰😎👍

I just subscribed to this, and I know that this is an older video. But I am building a 3:4 scale 1973 Porsche 911. I just got the motor in last week. It is from a 2016 CBR1000rr. I have not built the frame yet because I am a little concerned about it being able to hold the weight of the motor. I also purchased a pair of air ride shocks for a HD Electra Glide. My goal is that the motor will be attached to the same part of the frame as the rear axle enabling it to move up and down with the rear wheels. My concern is if that is going to be enough to keep the ride height level or not. Or should I add another pair of shocks to the equation? Also what is your opinion on counterbalancing the weight in the front?

In theory could i use longer springs in the rear to achieve lift? Engine sits on a swingarm that pivots from chassis with spring on each side (Coleman KT196)

Thank you

Great video. Question:
So we have a known shock spring rate, as in your example, of 300 pds.
So as a baseline to work out the math, at which point along the length of the A arm do we know it’s applying it’s rated spring rate of 300 pds? At 50% of the length of the A arm (as in your example)? I doubt you just picked a random spot on the A arm to start.

I have a question about upgrading my shocks to taller and it has changed the toe angel of the tire. Here's what's happening, when I drive my gokart the front wheels toe out on both sides and it's difficult to drive. If you could help I will be grateful. Thanks

hay yall

would the equation still applicable if i were to use it to for trailing arm suspension in the rear, on my go kart

This is all good and all but no go kart shock manufacturer states their spring rate. its all "max load" the common one is 450lb but how far does it travel for 450lb?

There is so much more than you are describing here this is a terrible video. Okay my bad I came off a little harsh let me reiterate if I may what I am trying to say is as a professional TH-camr you have a responsibility to your viewers of giving them safe information. When it comes to building from scratch the front end suspension components and steering of a four-wheel vehicle especially cross-cart type vehicles with very fast engines etc etc just the basics are enough if you get my meaning. Caster camber bump steer and Ackerman are all crucial for a vehicle to work safely.