I like how u made use of the graphs, sir. Its a more effective way for me in understanding where these kinematic equations are derived from. I'm glad that I've landed here :))
Hi Paul, I am using your videos as a resource as I begin to make my own flipped classroom series for my students in Physics. I noticed at about 8:40 that you said the 5th equation would not include v when it does not include u. It had me confused for a while because the rest of the explanation was free from slip up. Don't know if you or any of your audience picked it up. Thanks for this series, it is really helping my as I tackle teaching and recording videos in Physics for the first time!
omg thank you so much. My textbook didn't do a very good job of explaining where the equations came from. Now I understand. There are so many variables to consider (initial and final variables) that things can get confusing. I love how you differentiated between initial and final velocity as u and v, made it so much simpler! I've shared your video with other friends who are studying physics as well
It gets more and more confusing because I keep on forgetting what the letters mean (I think it would be better if the formula was on one side and the numbers were on the other)
2:50 - 1st equation of motion [v=u+at]
4:15 - 2nd equation of motion [s=ut+1/2at^2]
5:55 - 3rd equation of motion [s= (u+v)t/2]
7:00 - 4th equation of motion [2as=v^2-u^2]
8:00 - 5th equation of motion [vt-1/2at^2]
I watch all the ads from his video and doesnt skip to say thank you for his high quality lessons.
Same
I like how u made use of the graphs, sir. Its a more effective way for me in understanding where these kinematic equations are derived from. I'm glad that I've landed here :))
Glad they helped.
Where were you all these days sir..Finally i found a good physics sir to study clearly. Thanks for your clear simple explanation sir.
Hi Paul, I am using your videos as a resource as I begin to make my own flipped classroom series for my students in Physics. I noticed at about 8:40 that you said the 5th equation would not include v when it does not include u. It had me confused for a while because the rest of the explanation was free from slip up. Don't know if you or any of your audience picked it up.
Thanks for this series, it is really helping my as I tackle teaching and recording videos in Physics for the first time!
omg thank you so much. My textbook didn't do a very good job of explaining where the equations came from. Now I understand. There are so many variables to consider (initial and final variables) that things can get confusing. I love how you differentiated between initial and final velocity as u and v, made it so much simpler! I've shared your video with other friends who are studying physics as well
Thanks. Glad it helped
Exam in two days, amazing review! Thank you so much :)
U are doing great sir, your lesson is easily understood
very interesting and amazing professor, too smart on the graphical method
thank you very much sir, i searched so much for this but I finally found a well explained video!
You are a good teacher lndeed
This is a fantastic video! I will be sharing it with my physics classmates! Thank you very much:)
Same
Very nice illustrations sir
great lesson. Wish u were my high school teacher
Thanks! 😃
Yes this explained all the kinematics
Don't forget that you can curb this guy's talking speed by adjusting the playback speed.
if search all of UA-cam for this explanation finally i found it
Glad it’s helpful
Great video, thank you.
Thanks
Genius!
I think I would have understood this better if we used numbers
It gets more and more confusing because I keep on forgetting what the letters mean (I think it would be better if the formula was on one side and the numbers were on the other)
Very useful
Thankyou sir
thank u teacher
you are most welcome
ty
You’re welcome
Thanks bri
You’re welcome
🙏👌👍💐🎄🎅