Excellent information, thank you! I've only got several old shocks, and need to order some new ones for projects I'm working on. This is a big help determining which I need for what aspects of the projects. :) Well done!
Nice work, thank you very much for this demonstration! It could be very useful for people when planing what shocks to use depending on theirs MOC weight. Btw. I think, I saw something similar done with pneumatic cylinders (also very useful for the same reason). I'll definitely bookmark it for the future reference. :)
You should put info about the different shock absorbers like what sets they have been in or the item number because i cant tell a difference between the shockabsorbers so i dont know wich ones of those are the ones i have. :)
You neglected the fact that the force required is equal to the spring constant multiplied with the displacement. I would have liked to see the spring constants.
Constant Force is less common and requires special manufacturing that I doubt LEGO made, are you perhaps interested in the Average, which will still be a useable number for application?
Gave it a thumbs up. But if you are thinking about improving it, i would add a conclusion graph/slide. Something that at a glance shows the value for each spring and it's relative power.
Good Idea, unfortunately your experiment is not giving much information. It's not comparable. Comparable would be: force (weight) at a certain amount of compression (for example bent by 1 stud or 10mm or half an inch or whatever) because then we could determine the spring constants. With those we could compare the springs and even predict the behaviour of the springs under a given ammount of load. Now your video only tells us the soft spring is softer than the hard spring. Maybe another video?
Excellent information, thank you! I've only got several old shocks, and need to order some new ones for projects I'm working on. This is a big help determining which I need for what aspects of the projects. :) Well done!
Nice work, thank you very much for this demonstration! It could be very useful for people when planing what shocks to use depending on theirs MOC weight. Btw. I think, I saw something similar done with pneumatic cylinders (also very useful for the same reason). I'll definitely bookmark it for the future reference. :)
Thank you very much, hope it is helpful in the future. I have a lot of pnematics, and when I get the new ones I will make a vid with those. :D
Where did you get that clear friction shock?
i wonder to...
If this is still of interest: It´s part of Model 8448, you can buy it at eBay as well.
You should put info about the different shock absorbers like what sets they have been in or the item number because i cant tell a difference between the shockabsorbers so i dont know wich ones of those are the ones i have. :)
Once I get some info on the last spring I will. :)
Great because this will be extremly helpful as soon as i know wich ones of the springs is the once i have :)
*****
soft mode-2400 grams
medium mode-2600 grams
hard mode-2900 grams
***** I have the 8675 offroad challenger ,so ,here you have it!
LXF (LEGO xtrafunctions) WOW thank you very much! I will add over the weekend.
I think I'll cut the springs on my lego to make them softer
I can't turn on captions
Can you add to description the part numbers, please?
thanks for this information.
cool vid. but i miss in the same vid the range of the springs! how far did they go in @ 100%? measured in lego bricks ;)
Small ones 1 stud, big ones 2
@@stopmotion4244 4 years to late, but thx :)
How does the 731c04 compare to the 95292c01? I'm making a MOC and need the toughest spring with a large extension. Really great video by the way :)
Where do you get that shock that was the last o e showed in the video
From the motorcycle set
You know a site where I can get the 9.5l ones?
Bricklink is the only place to get all of the 9.5Ls since on the Lego website you can only order the Ext Soft one.
and what about red ones?
The extra hard shock absorbers have only very recently been made and did not exist at the time of the making of this video.
You neglected the fact that the force required is equal to the spring constant multiplied with the displacement. I would have liked to see the spring constants.
Constant Force is less common and requires special manufacturing that I doubt LEGO made, are you perhaps interested in the Average, which will still be a useable number for application?
Interesting!
who tf would dislike this is usfull as frick(*liked*)
what is the music plz?
I can't remember, its from UA-cam library.
Shazam
Just search "Donau Walzer" and you'll find it
thank you very much :-)
Good video, but the second last one is a pneumatic pump not a shock absorber.
True, true... BUT!!! it can e used as one.
Why so many thumbs down?????? :(
I liked it!
You missed the adjustable ones
thanks! i loved it! i know now how much pressure my shocks need!
Gave it a thumbs up. But if you are thinking about improving it, i would add a conclusion graph/slide. Something that at a glance shows the value for each spring and it's relative power.
Alex Xu
I never had one to test, but information has been added now.
Good Idea, unfortunately your experiment is not giving much information. It's not comparable.
Comparable would be: force (weight) at a certain amount of compression (for example bent by 1 stud or 10mm or half an inch or whatever) because then we could determine the spring constants. With those we could compare the springs and even predict the behaviour of the springs under a given ammount of load. Now your video only tells us the soft spring is softer than the hard spring. Maybe another video?
who has the time to do this bro
dude what the hell you are not pressing all the way down
哇;好手力
Guide unclear. You should put into a test car and test it all. Im not dislike, but im not like too