thank you very much, you've just saved me from failing a test. it might sound like a joke but I've been trying to understand projectile motion for sometime but i just couldn't not until now. thanks again🙏🏾
@@johnbaguinbin7484 correct, you can use initial and final vertical velocities, along with the gravitational acceleration constant, to find this right at the beginning
thank you very much, you've just saved me from failing a test. it might sound like a joke but I've been trying to understand projectile motion for sometime but i just couldn't not until now.
thanks again🙏🏾
You're welcome! I'm glad the video helped you 😄
Thank you so much sir
Matako yobe ❤️❤️❤️
For calculating h, cant you use the equation, 1/2 at squared
You have my biggest thanks,sir
following all the way from malawi, good explanations
Simmene kulili
@@dirjika_1929 kwachema 😂😂
sin60.42 = 36.3730
Thank you so much sir..
What if t is missing?
Sir why is it -16, isn't -9.81
Because we were using in ft instead of meter
9.8 is for m per second
Eid mubarak
Hello sir I've got a tough question here how can I send it to you ??
what is the max height for the 1st ?
i got 67.4 m
thank you so much!
You're welcome!
....why does this man sound exactly like my professor
🤫
What about the part c on the first problem?
The max height is 67.4 m bro, it is up to you how you solve it. Just use this answer to check.
@@johnbaguinbin7484 correct, you can use initial and final vertical velocities, along with the gravitational acceleration constant, to find this right at the beginning
Sir you are too fast, kindly lecture at slow pase, thank you
mate its a video you can go back what a stupid comment
How can he be fast while you can pause,slow the video at your own pace 😂
Dumb explanation