@@hulumtuesi63 I am in university and we learn this stuff at the end of the first year for the physics study, combined with a bit more calc 3 though. But I live in Europe though so its a bit different. I believe college and university are very similar, only you can't do masters and phds at college I believe, so university is a bit higher level in that sense, in the later study years and for research.
Watching this makes little sense to me as someone who hasn't taken a calc class and who is in AP Physics 1, but It's nevertheless interesting to see some more advanced maths and physics I might tackle in the future. I just wanted to say that I really appreciate all the effort you put in and the time you spend creating these videos for us. Have a good one!
I bet it was like listening to a foreign language which you have spent some time learning, however, you are not fluent in yet. You pick up bits and pieces which make sense, but much of it incoherently, but enjoyably, washes over you.
Thank you so much for this. I wish there were videos like this back when I was in high school and university. My grades would have been much better 😅. Big up from Trinidad! 🇹🇹
you're the best plus there is humour in your videos which makes one watch till the end it's the first time watching 2 of the 30 minutes videos without a break plus you look like those scientists in moves you're awesome
Remember watching you as a first year undergrad, now a 3rd year PhD student lol. It’s wild how this stuff goes from so hard as a first year to easy so fast within like a year
25:11 When was this mentioned? I though Electric potential is the potential energy over q? (referring to 6:38). Anyway, that equation looks like the equation for Electric field, which i think was used interchangeably in 26:55. Should i say electric potential of a point charge = Electric field?
I’m currently watching the AP Physics 1 videos as a self study and just wanted to thank you for those videos. I also wanted to know if you were going to do AP physics 2 after E&M?
Hello, I am kind of confused on whether ΔV = Va - Vb or Vb - Va, for me using Va - Vb is easier cause, in the equation delta V = Vb -Va = minus the integral from A to B E dr, I multiplied both sides by minus and then I got Va - Vb = integral from A to B E dr, cause I think ‘b’ usually represents a point of lower potential than ‘a’, so thats why I think Va - Vb makes more sense because ‘a’ is a point of higher potential so its like saying ‘higher potential minus lower potential’
ΔV = V_redprobe - V_blackprobe. That's the way a voltmeter works. By convention, the black probe is the definition of zero voltage on a Voltmeter, and the Voltmeter measures the voltage at the red probe relative to the baseline voltage at the black probe. Electrical schematics often mark a ground symbol where the voltage is defined as zero, for the circuit in question. As a charge moves from point A to point B, the work done on the charge is equal to q*(Va-Vb). Voltage at origin minus voltage at destination, all multiplied by the charge, is the work done on the charge. The change in electric potential energy is exactly the opposite, because W + ΔEPE = 0 when no other sources of energy are involved. This means ΔEPE = q*(Vb-Va), which therefore means ΔV = Vb - Va. Voltage at destination minus voltage at origin. For a positive charge, work is done on the charge as it moves from high potential to low potential, so when q*(Vb-Va) is negative, the work is positive
I started watching this channel when I was in high school, and I still came back as a current physics major student. Thank you!
That's awesome!
@@hulumtuesi63 I am in university and we learn this stuff at the end of the first year for the physics study, combined with a bit more calc 3 though. But I live in Europe though so its a bit different. I believe college and university are very similar, only you can't do masters and phds at college I believe, so university is a bit higher level in that sense, in the later study years and for research.
What a masterpiece. Big respect for your efforts devoted in each video 👍🏻👍🏻
You're carrying my class thru AP Physics. Thank you so much!
You are so welcome, however, I would say that you are carrying yourself; I am just providing support!
Watching this makes little sense to me as someone who hasn't taken a calc class and who is in AP Physics 1, but It's nevertheless interesting to see some more advanced maths and physics I might tackle in the future. I just wanted to say that I really appreciate all the effort you put in and the time you spend creating these videos for us. Have a good one!
I bet it was like listening to a foreign language which you have spent some time learning, however, you are not fluent in yet. You pick up bits and pieces which make sense, but much of it incoherently, but enjoyably, washes over you.
@@FlippingPhysics Haha yes, what a perfect analogy!
Looks great. I particularly enjoyed the cool demo!
Thanks for previewing. I know it is a long one this time!
Thank you so much for this. I wish there were videos like this back when I was in high school and university. My grades would have been much better 😅. Big up from Trinidad! 🇹🇹
Thanks for the big up!
you're the best plus there is humour in your videos which makes one watch till the end it's the first time watching 2 of the 30 minutes videos without a break plus you look like those scientists in moves you're awesome
Love this!
Remember watching you as a first year undergrad, now a 3rd year PhD student lol. It’s wild how this stuff goes from so hard as a first year to easy so fast within like a year
Wonderful to have you back for a moment!
25:11 When was this mentioned? I though Electric potential is the potential energy over q? (referring to 6:38). Anyway, that equation looks like the equation for Electric field, which i think was used interchangeably in 26:55. Should i say electric potential of a point charge = Electric field?
this dude's awesome! Keep it up sir.
Thanks, will do!
My goat 🙌
I’m currently watching the AP Physics 1 videos as a self study and just wanted to thank you for those videos. I also wanted to know if you were going to do AP physics 2 after E&M?
My plan is to beginning working on AP2 topic videos after I complete the APC E&M review videos. Best of luck on the AP1 exam in May!
@@FlippingPhysics how long do you think that will take? Plan on taking AP2 next year and would love to have your videos to learn from!
It will likely take several years.
16:48 often forgotten
Looks good. Thanks!
Groovy. Thanks for looking it over!
How could you replace r with x at 28:29?
13:36 the negative means
Hello, I am kind of confused on whether ΔV = Va - Vb or Vb - Va, for me using Va - Vb is easier cause, in the equation delta V = Vb -Va = minus the integral from A to B E dr, I multiplied both sides by minus and then I got Va - Vb = integral from A to B E dr, cause I think ‘b’ usually represents a point of lower potential than ‘a’, so thats why I think Va - Vb makes more sense because ‘a’ is a point of higher potential so its like saying ‘higher potential minus lower potential’
ΔV = V_redprobe - V_blackprobe. That's the way a voltmeter works. By convention, the black probe is the definition of zero voltage on a Voltmeter, and the Voltmeter measures the voltage at the red probe relative to the baseline voltage at the black probe. Electrical schematics often mark a ground symbol where the voltage is defined as zero, for the circuit in question.
As a charge moves from point A to point B, the work done on the charge is equal to q*(Va-Vb). Voltage at origin minus voltage at destination, all multiplied by the charge, is the work done on the charge. The change in electric potential energy is exactly the opposite, because W + ΔEPE = 0 when no other sources of energy are involved. This means ΔEPE = q*(Vb-Va), which therefore means ΔV = Vb - Va. Voltage at destination minus voltage at origin. For a positive charge, work is done on the charge as it moves from high potential to low potential, so when q*(Vb-Va) is negative, the work is positive
Why do you not want to write units upright as they are supposed to be written in Système Internationale?
2:35 highlight
How did he do that?!
14:44 conserved
Thank you sir
You are welcome
Hello sir thanks for all you do.can you introduce us a highschool physics textbook?
Yesterday i was recalling Leonard from The Big Bang Theory and i was wondering why. Then i discovered that you look and act like him.
I feel stupid. Currently trying to cram thermal physics, E and M, mechanics and modern physics... Oh, also optics and waves.
These bo's always make me laugh 4:30
18:14
It's sad when I see the number of subscribers ;(
yeah