AP Physics - Atwood Machines

My AP Physics teacher is a wonderful teacher but he tends to not elaborate fully on concepts.
You good sir have certainly made this a bit easier to understand.

Not all heroes wear capes. Actually most of them are probably educators.
Thanks Brother! - From Canada

So THAT's what all those problems about massless pulleys with blocks hanging off them are called! Thank you!

Hello Dan,
First of all thanks for all the efforts given in making these videos!!
I would like to say that your channel is the best channel among many ones which i have visited so far! You have great understanding to physics and you adress this subject in a very clear systematic way! In addition to that you have offered your great knowledge in this material free of charge! This is the least that i can say on your determination and ethics towards teaching and physics! You have my respect and support!!
Saleh

Thank you for this! (9 years after upload lol)
My AP Physics 1 teacher is one of the worst teachers I've ever had, she can't explain anything for her life. I have my unit test tomorrow, and this is the first time I understand atwood machines. And unlike AP classroom videos, this gets to the point and actually teaches instead of ranting on for 10 minutes about how they are going to design some "physics experiment"

very helpful..im gonna continue learning from your videos... thank you Mr. Fullerton ..btw am not from US, so no high school.. but this knowledge is very helpful..

Thrilled to hear it Katrina! Have a great fall... can't wait to hear how your physics course goes!

Very nice, concise and straight forward presentation
Thank you

this made so much sense

Mr. Fullerton,
This helped a lot with my physics lab.
-Katrina Rojas

Glad you're finding this useful!

This is 10 years old but its still helpful. thanks

Thrilled to hear they're helping, and so sorry I'm a day late... doing my best to keep up with my AP-C class this year. Best of luck this year!

Oh thats what i wanted thanks
Frm pakistan
Subscribed

it was the best explanation!

You're welcome! -- from USA :-)

I tried to apply the Atwood Machine in the field at my job. I have to carry my 50 pound backpack up and down a 175' tower. So I thought to create an Atwood Machine using a 200' rope, two pulleys, my backpack(M1) and some weights(M2). The objective was to establish equilibrium so that I could easily take my backpack up and down the tower with little to no effort. My atwood machine failed miserably. I was able to raise my backpack (lowering the weights) with very little effort. But lowering my backpack (raising the weights) took a tremendous amount of effort - there had to have been at least 25lbs of resistance when lowering my backpack. I'm baffled in how it worked one way but not the other.

Thank you Sir,
- from Norway

awesome video thank you!

At 3:09, what is the net force conceptually? Is that the force exerted by the block on the pulley?

How is tension constant throughout the string if it is in the positive direction on one side and in the negative direction on the other side?

You're welcome!

ily tysm

This video is still being assigned in physics classes today.

You're welcome.

Any reason why you would have the heavier object point in the positive direction? That seems very counterintuitive since that one's gonna be driver. So it would make more sense to say that should be the negative force.

Thank you so much!!!

2024 attendents 😂

thank you!

no matter what I do I'm getting accel. = (-m1 + m2)g/m1 + m2. It appears to work but every book and video has it (m1 - m2)g/m1 + m2. Are you considering accel. to be negative?

for net force equations, do we always put the positive direction minus the negative direction? after we decided what way is positive and what is negative that is...

if der is friction,wher has to b d coefficient f friction put?

equations with more letters (that have no numbers) confuse me so bad 😭

Mraz Burgs