You can't break because of the massive amount of momentum you have. Momentum = mass x velocity so even though you had very little velocity your mass was huge. Also, your change in velocity is affected by your mass, again making it almost impossible to effectively accelerate positively or negatively without a massive force.
@@employedhawk885 actually this thing about the braking is closer to reality than you are probably thinking Well, not a 10000kg car, but the fact that braking distance are vastly increased
Last man standing with the Heavy Car. Drive very fast into a group of cars and , due to physics (momentum), everything will explode. Like so Aarav will see
@@leeroysuares3039 came back and binge watching old videos and just realised that he put 1,000,000 as the value for the mass and the unit is newtons not kilos so it's actually only 100,000kg 😂😂 how did he not realise that 😑
These experiments are hilarious like I was expecting for Race 2 at Bahrain driving that Sauber car but I came to this and another experiment this is some good content. Ah man keep doing you, keep doing you!!.
You can't break because energy is equal to mass multiplied by the acceleration and the breaks aren't designed or modelled on the game to break 10000kg😂😂
scientifically speaking, the momentum of the car at 10000kg was too high for the brakes to stop the car, as momentum = mass x velocity, and 10000kg x ~100mph forwards = 1000000kgm/h (kilogram miles per hour) forwards, and the stopping power of the brakes is around only 96940 kgm/h, which is 1/100 of the momentum of the car
A theory on the 100,000-kilogram car. Since you were traveling downhill, you would naturally pick up speed. Couple it with the fact that you were driving backward meant the downforce turned into 'up'force, therefore making it impossible to brake. Essentially you were just a hundred miles per hour away from taking off in your sea container with wheels.
You should have monitored the brake temperatures when you had the stable car. It would be interesting to see how long they stay hot given the immense weight of the car and how they wouldn't be able to stop the car since they're too hot and too small.
I'm a bit surprised by the lack of understanding of inertia and conservation of momentum by Aarav. Braking force applied is equal only the mass is about 13x higher, thus the deceleration by braking is 13x slower.
A heavier object means you carry more momentum which then requires a larger braking force to slow it down and would also need to be stopped much earlier
Here's an interesting test you could do: see what kind of lap times those cars would do if the weighed 605kg like they did 10 years ago. I have always been curious about that.
6:31 “The rear front failed”
makes sense
How about 13:08 ?
i was literally about tk type that comment until i saw yours @LordSuper Gamer
Arnold Lim same😂😂
yeah I know right
That transition from 1kg to a million kg is the same i am going through christmas holidays :)
12:25 "How is having a heavier car slowing me down from braking?" are you kidding its called inertia
That's some Jimmy neutron type knowledge
@@kedda4515 it is literal 8th grade knowledge
@@tatertots220 I was joking man jesus
@@kedda4515 yeah i was just sayin
@@tatertots220 couldn't handle the neutron style
You can't break because of the massive amount of momentum you have. Momentum = mass x velocity so even though you had very little velocity your mass was huge. Also, your change in velocity is affected by your mass, again making it almost impossible to effectively accelerate positively or negatively without a massive force.
It's also just a game
@@employedhawk885 game handles that quite well
@@employedhawk885 actually this thing about the braking is closer to reality than you are probably thinking
Well, not a 10000kg car, but the fact that braking distance are vastly increased
i reckon he knows this given he has an engineering degree
@@jonnypinder7745 you learn this in highschool/secondary school
What happens when an F1 car has 1,000,000hp?
OOF
wheelspin that destroys the tyres ever time you even think of touching the throttle
It’ll go from 0-60 REAL QUICK
Well... i think you will go faster then Kimi who is looking for his way to Finland from brazil
Aarav: touches the trigger
FIA : *Why you coming fass*
This is how stroll and sirotkin feel
It's harder to deaccelerate because of the momentum, that's why trucks have big ass brakes.
Like how its hard to slow down a full shopping cart
In the name of SAINZ!
What is it
Experiment idea :
See if you can edit the top speed limit in the data files
You can change the gearing
In Racedepartment already exists "F1 2018 OP car" mod. Speed to 487 but limited by the drag.
@@emilwinbo1882 there's a hard-coded limit
You shoud turn the f1 cars into the safety car and race the safety car
Safty? :D
@@Petidani0330 it's written "safety"
The original commenter made a typo
He/she edited the comment
Make a car have unlimited downforce and try to go flat out through monaco hairpin
infinite downforce would be like infinite weight and in the games logic infinite drag
6:30 “oh the rear front failed” yes
At 6:30 did he say "the rear-front has failed"
yeah
I love these experiments
'The rear front failed'
Ground breaking experiments xD
Game breaking experiment lmao
@aarava you do engineering you know with the inertia of the 10 tonne car it's not gonna stop pal 😉
12:55 Aarav: It's like I'm driving on ice.
F1 drivers: I think you're driving at Turkey aren't you?
Welp, I was waiting for this.
Last man standing with the Heavy Car. Drive very fast into a group of cars and , due to physics (momentum), everything will explode. Like so Aarav will see
14:35 Still faster than a McLaren Honda...
Survive Max Weight Episode would be lit 😂
Around Monaco
At night
Full wet conditions
@@ruioliveira3025 and keyboard
16:08- bro predicted the titan. submersible
"The rear... the ...the rear front broken."
I think this is where Aarav broke, not the car...
He predicted porpoising
A heavier car stops slower?
Maybe because it has more momentum?
"The rear front failed" Aarav 2018
We need a video on - "How to be a perfect wingman F1 2018 edition"
Does this guy have no concept of inertia lol ?
apparently he did aerospace engineering 😂
LeeroySuares B.U.L.L to the shit.
@@DavidRSAT 😂😂
@@leeroysuares3039 came back and binge watching old videos and just realised that he put 1,000,000 as the value for the mass and the unit is newtons not kilos so it's actually only 100,000kg 😂😂 how did he not realise that 😑
You should have a race with all 20 cars weighing 10,000 kgs.
Seeing the Mercs car getting destroyed ....ahhhh brings so much warmth to my heart
It's Ericsson's fault that the"REAR FRONT TYRE" failed
These experiments are hilarious like I was expecting for Race 2 at Bahrain driving that Sauber car but I came to this and another experiment this is some good content. Ah man keep doing you, keep doing you!!.
Do F1 Car With 1 Million Horsepower Next
What happens if the car has 100000 hp of engine power
14:58
Theyre not the Silver Arrows anymore, theyre the Wooden Spoons
This is just begging for a race where every car weighs 10,000kg. Haha.
That is straight crazy! You hear me? CRAZY!!
And boy do I love it! :D
That drag race vs Bottas was impressive😂😂
aarava: 1000000kg is the weight of a bridge times a few multiples
real life:1000000kg is about a medium sized ship
3:33 You've made a neutron star. Congratulations.
Yet again loving da midroles
14:50 HAHAHAHAHAHAHAHHAHA I just can't this.. x'D
6:30 aarava: the rear front failed
Me : 😳......... lol😂🤣😭
Love the content so keep doing vids like this
U r so fricking underrated.
Bro I love ur vids🤣🤣
Hoodie Allen instrumental I like it :D
not very sure but that was some science for ya aarava
"Driving on ice?"
AARAV MATE YOUR DRIVING TITANIC THERE
I love these videos of yours! And I have the same wallpaper!
Do negative weight
I like how Jeff doesn’t say that looked bad, just BAD
5:05 well thank god for the halo lmao
6:31 “Oh no, tyre failure”
-Totto Wolf 2018
maybe do a 100hp or something with the tyre lifespan
You can't break because energy is equal to mass multiplied by the acceleration and the breaks aren't designed or modelled on the game to break 10000kg😂😂
Do a survive race where all cars are 100 kg...that should be hilarious.
Would've loved to see the 10k kg car crashing into a normal weight f1 car xD
It keeps going because it has a lot of momentum
"How is a multi ton F1 car stopping me from braking?"
yo, u listening to yourself?
For your next vid please can you do a v8 or v10 in a modern f1 car
Aarava does a Murray walker, "the rear front just failed"
6:30 *"the rear-front failed"* ... basically suma up this video in a nutshell
*1,000,000 KILOGRAMS* = Car digging to the center of the earth
scientifically speaking, the momentum of the car at 10000kg was too high for the brakes to stop the car, as momentum = mass x velocity, and 10000kg x ~100mph forwards = 1000000kgm/h (kilogram miles per hour) forwards, and the stopping power of the brakes is around only 96940 kgm/h, which is 1/100 of the momentum of the car
Mass * vel, buddy. Also, the usage of XML for property storage is quite nice.
5:10 - that’s why we have the halo
Hilarious video XD, do this though, edit all cars weight's to 10000kg and have a race. It is gonna go well I am sure!! :p
You should have also left the McLaren at its ultra low weight, and see how quickly you would get lapped.
Do a survive series with heavy cars like this :D
Aarava logic; a train is very heavy so if it starts braking it would stop instantly.
5:05 Bono my tyres are gone
15:00 Ahahahahaha Aarava
Seeing VS Code, I thought I switched to a programming tutorial...
Merc this year
The car moved further because of the momentum it gained from the mass.
Good to see aarav knows what inertia is 😅
Half a mil shows what Hades sees from the underworld.
7:28 Aarava! You aren't Scott!
I would like to see actual races with the same weight for the entire field next time
A theory on the 100,000-kilogram car. Since you were traveling downhill, you would naturally pick up speed. Couple it with the fact that you were driving backward meant the downforce turned into 'up'force, therefore making it impossible to brake. Essentially you were just a hundred miles per hour away from taking off in your sea container with wheels.
thats not how downforce and wings work. to reverse downforce you actuallx have to flip the car
Game-breaking???? More like Earthy shattering!!!
‘The rear front tyre has failed’ Aarava’s logic has failed
You should have monitored the brake temperatures when you had the stable car. It would be interesting to see how long they stay hot given the immense weight of the car and how they wouldn't be able to stop the car since they're too hot and too small.
I'm a bit surprised by the lack of understanding of inertia and conservation of momentum by Aarav. Braking force applied is equal only the mass is about 13x higher, thus the deceleration by braking is 13x slower.
where are you getting all these interesting video ideas from then aarav?
you are the best comentary in the world
6:00 he sounded like elmo hahaha
A heavier object means you carry more momentum which then requires a larger braking force to slow it down and would also need to be stopped much earlier
Hamilton needed an alien indicator
So you think it's easier to stop a massive boulder going 200mph than a paper ball going 200mph.
Great vids mate..
“How is having a heavier car slowing down the braking?” Inertia my friend, inertia.
New Challeng: Try to change the size of the tires
is it me or does this guy laugh sound like elmo 😂
10:26 You can see the two people next to the car have no reaction to the self driving backwards car!
Here's an interesting test you could do: see what kind of lap times those cars would do if the weighed 605kg like they did 10 years ago. I have always been curious about that.
Modern cars now weigh ~730 kg in game files. Minus 50 kg gives a second per lap(tested by modmakers and personally me), so 605 will be 2-4 sec faster.
THESE VIDEOS DON'T NEED TO BE THIS LONG
What about a car without aerodinamic drag?
1000000kg is 1000tons which is about the size of a mid-sized ship