Physics is the most confusing thing on the planet, thanks for the help!

This video is BRILLIANT!!! I truly enjoy the way that the instructor played four different versions of himself. Better yet--the delivery of the concepts here is superb! Thank you very much for creating such a helpful video, Flipping Physics! :-)

Everybody brought mass !!! Excelent video. Greetings from México

Yes! I'm so glad that this helped me. Thanks for making this! I've thrown in the deep end when I was required to find max static friction and kinetic friction for a h/w report

At first, I watched this because I was doing my lab report but then I start enjoying your videos. Thanks! Haha!

Laughed hard and learned at the same time. Awesome video!

Even after 7 years, these videos are still incredibly helpful, thanks so much for these quality content - Physics can get quite challenging when we go to Tension and Newton's laws of motion.

i love you man, i was wondering why my equation was not working but i realized i had my a backwards like your explanation

Ur style of teaching is so good

Your videos are awesome! Way funner/easier to watch than others where its all pen and paper. Keep it up man! I still have another semester to go!

I used this example for my class report and my teacher corrected me that the summation of forces in perpendicular direction must be the net force rather. And after my report, I realized that this problem is a little harder because the mass is not given! I think I got my classmates all confused because of the missing mass. Anyway, thank you!!

How do people understand this? Im so confused they go way to fast and skip details that confuses me.. I appreciate the speed and edits but its hard to understand

Very engaging and to the point video to explain physics, nicely done. I have one question though, why is the acceleration negative? Is it because the book is sliding to the left, which is a negative direction? If this is the case, I don't understand how the coefficient of kinetic friction would change because it is just a matter of perspective on a 3D plane. So basically, why is acceleration negative? Thanks again.

I have a question. Is it the last video you said it starts to move at 15 degrees and now it is moving at only 14 degrees? I am writing my report and my measure gives me the same problems. I don't understand why a smaller angle makes the book move which creates the kinetic coefficient. if anyone knows please help.

For the sum of the forces acting in the horizontal, could you do Fg,x - Ff,k = max? I did it that way and got a friction coefficient of 0.21. Is this wrong? Please let me know. Thank you!

i have a lab tomorrow and we have to write our own procedures and this was mad helpful

There is another way to isolate for the coefficient of kinetic friction, where you would be left with uk = tan(theta) - (a)/gcos(theta)

Great video although I do have a question: wouldn’t the sum of the forces in the perpendicular direction be Fg - Ff since the force of friction is acting against the motion? Thank you!

Thanks, Mr. P. This is much clearer now!

what's that app? that u use on your phone to get the angle of inclination??

Thank you, this helped me on physics homework so much!

Guys just BIG FAT THANKS to you, I've vainly tried to understand how to measure the static and kinetic friction coefficient, but you have fairly explained it. Can I ask that refer to the static video, it shows the angle was 15 degrees, and here it is 14 degrees, why it's reduced? Is it a statistical error only, the book or ramp is different than the previous example, or something else? Thanks you once again

Yall are saying this confusing but my textbook explains it as "Once the block starts to move at theta > or = theta c, it accelerates down the incline and the force of friction is fk = uk n If theta is reduced to a value less than theta c, however, it may be possible to find an angle (theta)' c such that the block moves down the incline with constant speed as a particle in equilibrium again (ax = 0). In this case, use Equations (1) and (2) with fs replaced by fk to find uk: uk = tan (theta c)' , where (theta c)' < theta c." Its not even English, so thank you for those who only have shit textbooks to learn from

How do I practice this?

Nicely done I enjoyed your teaching method, thank you !

Can someone explain to me why he made the displacement negative when he corrected a mistake?

Thanks for the flipping help maannnn!

Something that is confusing me... in the static friction incline example, you said the book does not slide until an angle of >15 degrees is reached. Now we are saying the book is sliding at an angle of 14 degrees, how can this be?

two words: Awesome. Video.

how come acceleration isn't negative when were solving for the coefficient of kinetic friction?

why the distance is zero here?

Then if its the acceleration is moving to the right side then the acceleration is positive but my static friction i got will be less than my kinetic friction

Thank you that was very helpful💙 ,but can i ask you about the app you used in iphone to determine the angel (14)?,greeting from saudi arabia✋

Super helpful and easy to understand. Thank you so much.

i type this equation into my calculator and i keep getting .19 not .21. do you have any idea what im doing wrong

How we know that the acceleration is constant?

Outstanding video helped me immensely, thank you very much!

hi, i was wondering why you didn't include kinetic energy in your equation?

It was really cool. More uploads please

Wish I had these guys next to me in class

Thank you sir, Video is so helpful!

At point 2:16 in the video it is stated that, ma = m(0) =0, how is acceleration 0 when that book is in motion in the beging of the expariment?

Hey I need help with this! Why exactly does the co-efficient of kinetic friction increase with the angle of inclination. I'm using this in my report and I'm getting some pretty confusing answers online. I am on a deadline so it would honestly mean the world if yoou could reply Asap

Love this! Super entertaining and educational!

If down the plane is negative why isn't SumF down the plane negative??? making it -mgsin(thetat)+Fr=-ma. making the final formula have a "-a" not a "+a"???. So final formula would mu=(gsin(theta)-a)/(gcos(theta))???

Does anyone know how to find the coefficient if you don't have the acceleration of the object? Is it possible to find the coefficient of the net force with using only the mass of the object and the angle of the inclined plane?

I think the correct equation is mgsin(x)- Uk(mgcos(x))= ma As the downward force is greater (mgsin(x)) This results in a final equation of (gsinX - a )/(gcosX ) = Uk Uk- co efficient of friction

One thing I don't get... please respond... at 2:45 it says that the net force horizontally would be the kinetic friction minus the parallel component of weight. Shouldn't it be the other way around because it moves down the ramp? So it'd be Weight parallel minus kinetic friction? - Thanks!

How did bo calculated the acceleration = 0.371208 without a calculator and so quickly. ;)

Thank you! this video was a lifesaver :D

What would you do if you know the final velocity, but not the time?

this helped so much on my homework, thanks XD

This really helped me out! thanks bro

Great video as always. :)

So Bo just did all of that in his head. Got em

Great video!!!!👍👍

Thank you so much for these videos :) so much fun

Awesome video

The teacher is op

thank you so much!

Great video, don't forget to drink water.

are you wearing different color socks? attention to detail... i like it

I don't fully understand it.......but I'm also not completely lost so...progress

sir u are amazing ^_^

Hello sir, can you explain if the angle was on horizontal plane (180 degree). According to you, μk=gsinθ+a/gcosθ is the equation here, but in horizontal plane since sinθ=0 and cosθ=1, does it mean μk=a/g? I would like to do experiment to find COFk (coefficient of kinetic friction) and I am using spring to move the wood block and planning to measure the acceleration. But I am not sure about formula of μk. Plus, I also watched some video from other youtuber before your video as well such as kzbin.info/www/bejne/bJbCfoBnrs-rpZI This one tell me to use formula a=Fnet (50-Ffr)/mass of wood block(10) instead, but does it work it same way? This guy also say that there is sudden drop from static friction to kinetic friction as the push force exceeded the Maximum static friction, which make it to zero. So does it mean Fsf(max)=μsFn have same force as Fkf(max)=μkFn? Sorry for several questions, I really need response asap. Thank you.

WTF!!!

they lost me at 1:58😐

I love you

see this is the thing with physics. at 2:03, that's when I get confused about finding the net force and finding which components equal which. The fact fg parallel equals mgcos0 does not make sense to me