There is a slight error at 3:52 . As I told before, the gravitational acceleration is equal to G times m_1 over the distance squared, but in the video, two masses appear. The mass of the object which is getting pulled is irrelevant regarding the acceleration since we could just cancel it (Keep in mind that F=ma)
Btw this 0:19 is no retro Newton. I’m just that bad at drawing
Incredible quality, keep up the work my G !!
Thanks my notorious, reigning, defending, undefeated, ginger looking, gym going super fan👍
Enjoy the 4K
I managed to pull off 4K this time. Hope you enjoy it
There is a slight error at 3:52 . As I told before, the gravitational acceleration is equal to G times m_1 over the distance squared, but in the video, two masses appear. The mass of the object which is getting pulled is irrelevant regarding the acceleration since we could just cancel it (Keep in mind that F=ma)