Physics (F=ma) test: “Without” applying the Energy from within you, choose an object of your choice, and apply only the Force or Net Force needed to push it away from you or pull it towards you. Please let me know if you’re able to. This is only a test. Thank you.
This is wrong, Z=X+Y, then the uncertainty delta(Z) should be delta(X)+delta(Y), since absolute uncertainty means simple error, not standard deviation error
Good luck on the F=ma A everyone!
One of the best videos I've seen this decade!
Thank you! I needed this
Physics (F=ma) test: “Without” applying the Energy from within you, choose an object of your choice, and apply only the Force or Net Force needed to push it away from you or pull it towards you. Please let me know if you’re able to. This is only a test. Thank you.
Can you drop it off a height?
@@AchiGouri You would still need to apply energy to do so.
Can I turn on the fan and let it blow a paper towards me?
@@GuerrasLaws
Thanks dude
This should have more views!!
Epic video
Got any recommendations to learn/practice this material?
Doing the past F=ma's and reading textbooks like HRK was what worked for me, but it may not be the best strategy for everyone.
Slaps so hard, thank you so much for carrying my college apps 🙏🙏😭😭
Can you send the slides for this video?
Thank u so much!!!
just saying f=ma uses g=10 m/s^2
10 N/kg 🤓
One video for full USAPhO preparation too...
27:55, shouldn't it be M/L not L/M?
Linear mass density (u) = mass/length, so 1/u = 1/(M/L) = L/M
This is wrong, Z=X+Y, then the uncertainty delta(Z) should be delta(X)+delta(Y), since absolute uncertainty means simple error, not standard deviation error
background music is distracting
nerd
Então tá né