I came across your web page when looking up Maxwells equations and thought I watch more videos starting at this one, the earliest I found. I thought your three graphs idea was very good, and allows a very clear perception of the basics. I appreciate this is an old video but the basics are good and a worthy tutorial. However the corrections in the voice-over quite grating and would benefit greatly from a re-take to get a smooth flow of the information. Also on my screen the time scale at the bottom is half covered and hard to read. I'm just trying to be constructive not critical.
Good day, sir. Just wanna ask, if the a1 that I computed is higher than the a2 a3 a4 and so on, does this mean that the object having this acceleration suddenly bolts off when it was released then eventually after a few seconds continue to accelerate but lower than the a1? ex. a1 = 2.45 m/s^2 a2 = 0.987 m/s^2 a3 = 0.876 m/s^2
THANK YOU SO MUCH!!! FOR ALL YOUR VIDEOS. PLEASE CONTINUE TO SAVE ME FROM THE NEW SYLLABUS NEXT YEAR TOO :))))))))))))))))))))))))))))))))))))))))))))))))))))))))
Good work. pHET is awesome!
I came across your web page when looking up Maxwells equations and thought I watch more videos starting at this one, the earliest I found. I thought your three graphs idea was very good, and allows a very clear perception of the basics. I appreciate this is an old video but the basics are good and a worthy tutorial. However the corrections in the voice-over quite grating and would benefit greatly from a re-take to get a smooth flow of the information. Also on my screen the time scale at the bottom is half covered and hard to read. I'm just trying to be constructive not critical.
Thanks Lyn. I’m not offended. I value constructive feedback.
Yes this video was very early days 🤣
and an update is a good idea.
excellent
Good day, sir. Just wanna ask, if the a1 that I computed is higher than the a2 a3 a4 and so on, does this mean that the object having this acceleration suddenly bolts off when it was released then eventually after a few seconds continue to accelerate but lower than the a1?
ex. a1 = 2.45 m/s^2
a2 = 0.987 m/s^2
a3 = 0.876 m/s^2
Idk abt you but im here for my edits and i need to study the motion graphs
thank you so much! 😭
THANK YOU SO MUCH!!! FOR ALL YOUR VIDEOS. PLEASE CONTINUE TO SAVE ME FROM THE NEW SYLLABUS NEXT YEAR TOO :))))))))))))))))))))))))))))))))))))))))))))))))))))))))
Thanks need this for an quiz
Doing gods work
thanks
Thanks you
anyone from Hale ASchool
only you