You should know this

You should know this.

physics major here, assuming the typical assumptions

C raises all the way up.
C drops as B raises
B drops as A raises
B raises as A raises
C raises as B raises
C hits the top last

in short C raises first and last

C

20

>no friction
they all raise at the same time

>friction
C

Anyone who doesn't say A must not understand what a friction-less pulley is. Energy follows the path of least resistance and gets stored as potential energy in the 20 weight.

if we're assuming the pulleys are frictionless then the tension should be constant throughout the rope, meaning A rises first

>path of least resistance
>single path

the effort you put in pulling the string combines all the weights together, and discounting friction they all lift together.

discounting gravity of course.

>discounting friction they all lift together.

No they don't LOL. The heavier weight will give up its potential energy and store it in the lighter weight. It's fucking balance 101.

You must not be accounting for the fact that the rope can slip on the pulley, hence, friction-less, like I said, you don't understand what a friction-less pulley is

so would it be
A 100% height
then
B 100% height
then finally
C 100% height
without friction?

what about with friction?

sorry i only took physics for health sciences and we didnt fucking spend our time ejaculating all over frictionless pullies and men hoisting ropes like you apparently did

>I was wrong so now I'm going to just insult you to feel better
good job user

C because friction

How the fuck is that stable? C is going to drop and lift A and B, even without anyone pulling on the rope.

Why can you health """""""science""""""" majors just admit when you're wrong instead of going on the offensive?

If A weighs -20, B -40, and C -60, which would drop first if the pulleys were mounted on the floor?

C will lift first, because the force of the man pulling must first propagate through the rope. This force front will first encounter the 60 kg mass, therefore it will lift first.

Nowhere does it say they have to be lifted all the way to the top. Just which lifts first.

This

Autism

a

if it is pulled faster than the speed of sound then it would be C anyways

Anyone who doesnt say A is either trolling, or has no buisiness posting on Veeky Forums.

>hurr but friction

Look at the fucking picture, those are clearly pulleys on both ends. Unless the bearings in said pulleys are welded in position or heavily rusted you can disreguard friction through them.

What if C weighed 1 ton? Would it still lift first you dunce? You can say that's irrelevant all you want but its not. The only thing that would change in that situation is the amount of force required to lift C when it raises LAST.

If you plan on becoming an engineer please tell me what state you live in so i can move far away from any mechanical systems you may have a hand in designing.

This, this system doesn't make any sense to start with.

what if it's pulled faster than the speed of light

Then the rope would stretch to infinity while bursting into flames from atmposheric resistance and the universe would implode.

So is it A or C. Why can these threads never state an answer but just result in Insulting other people's answers.

If no one is there then all the weights will drop because one end of the rope is loose.

You should know this.

this is not a stable setup
a and b go up all the way to the top and c goes down. no matter what you do. when you pull, c goes up

All the scales read their own weight (minus the weight of the water their volume displaces) as they all float to the surface.

EZPZ

Its A, unless you want to troll people, then its C

A will lift first, even without pulling the rope.

If everything is in equilibrium and the man pulls, all 3 will be lifted at once.