You are my biggest hope of passing AP Physics 1 and AP Physics C Mechanics, if I pass both, I'll become an engineer!! Also Mr.P, could you please create an Ultimate review packet for AP Physics C Mechanics, there aren't a lot of resources and I believe you would make a great one!!
I am not your biggest hope, you are. I simply provide you with useful tools. You are doing the work my friend! Sadly, I will not have time to create an Ultimate Review Packet for AP Physics C: Mechanics before the May exam, however, I do have lots of other, free resources for you: www.flippingphysics.com/ap-physics-c.html www.flippingphysics.com/ap-physics-c-review.html Best of luck on all your AP Exams!
Looks great! (By the way, when dealing with objects in translational and rotational equilibrium, I'd ask my students "what point do you choose for the axis of rotation" and they'd be trained to answer "I don't know and I don't care" as they'd choose a point about which they don't know the applied force, and also for which they don't care about the value of the applied force. Just a though if you get to that in a future video.)
Thank you so much Mr. P for being one of the best physics teachers. I woukd really love if you also uploaded videos on systems of varying mass for AP Physics C: Mechanics (please create them even if its not on the exam cuz our teacher went over it and I didnt understand how to solve the sand leaking from a cart problem, where the cart is being applied a constant horizontal force, and sand is leaking out of a hole from the cart. We had to find the final velocoty of the cart after all the sand slipped off). I hope this isnt too long of a comment for you.
My main problem was I didnt understand why we couldnt use F sub net = dp/dt = m dv/dt + dm/dt × v. The teacher said that the secind term on the right hand side cancels out, and I didnt understand how.
@John-w1h7o If by that you mean: The rotational inertia about an axis which passes through the center of mass of a solid disk. The rotational inertia about an axis which passes through the center of mass of a solid sphere. At no point in the video did I say those equations are on the equation sheet provided on the AP Physics 1 exam. What I did say is that, if those equations for rotational inertia are required to solve a problem on the AP Physics 1 exam, they will be given to you in the problem.
Nice Video! Thank you so much, you are helping me with fma prep!
You are my biggest hope of passing AP Physics 1 and AP Physics C Mechanics, if I pass both, I'll become an engineer!! Also Mr.P, could you please create an Ultimate review packet for AP Physics C Mechanics, there aren't a lot of resources and I believe you would make a great one!!
I am not your biggest hope, you are. I simply provide you with useful tools. You are doing the work my friend!
Sadly, I will not have time to create an Ultimate Review Packet for AP Physics C: Mechanics before the May exam, however, I do have lots of other, free resources for you:
www.flippingphysics.com/ap-physics-c.html
www.flippingphysics.com/ap-physics-c-review.html
Best of luck on all your AP Exams!
Good luck you got this 🙂↕️
Where are you from? Future engeener ?
best of luck!
Looks great! (By the way, when dealing with objects in translational and rotational equilibrium, I'd ask my students "what point do you choose for the axis of rotation" and they'd be trained to answer "I don't know and I don't care" as they'd choose a point about which they don't know the applied force, and also for which they don't care about the value of the applied force. Just a though if you get to that in a future video.)
I like it. I don't know if I will ever use it in a video, however, it makes a lot of sense.
Thanks for looking over the video!
Thank you so much Mr. P for being one of the best physics teachers. I woukd really love if you also uploaded videos on systems of varying mass for AP Physics C: Mechanics (please create them even if its not on the exam cuz our teacher went over it and I didnt understand how to solve the sand leaking from a cart problem, where the cart is being applied a constant horizontal force, and sand is leaking out of a hole from the cart. We had to find the final velocoty of the cart after all the sand slipped off). I hope this isnt too long of a comment for you.
My main problem was I didnt understand why we couldnt use F sub net = dp/dt = m dv/dt + dm/dt × v. The teacher said that the secind term on the right hand side cancels out, and I didnt understand how.
Thanks
Great video! Peace out
Great video, but on the AP Exam sheet im not seeing some of the formulas that you said are on the equation sheet
Which ones specifically?
@@FlippingPhysics The one for the disc and sphere I think, let me check if there are more
@John-w1h7o If by that you mean:
The rotational inertia about an axis which passes through the center of mass of a solid disk.
The rotational inertia about an axis which passes through the center of mass of a solid sphere.
At no point in the video did I say those equations are on the equation sheet provided on the AP Physics 1 exam.
What I did say is that, if those equations for rotational inertia are required to solve a problem on the AP Physics 1 exam, they will be given to you in the problem.
@@FlippingPhysics Ah ok my mistake, thanks for the clarification, your videos and ultimate review packet are very helpful!
Looks good to me!
Thanks so much for looking it over!