If you were to use a syringe with a smaller diameter, you would need to apply less force to generate the same pressure. Force = Pressure / Surface Area of the piston head. If you halved the syringe diameter, you'd need 1/4 as much force to generate the same pressure.
So it was 50 psi? What is 5000 psi then (a real pressure in a gas/oil reservoar)??? Can‘t help waiting for seeing it in your next video😂! This one was great, btw❤!
Thank you so much for the demonstration, the theory sounded much more complicated!
This is nice Jimmy! I love it; and the filter passed! Yeah!
Dude great video was finding a difficulty understanding the test
Thank you so much this helped me understand the test 💙💙
thanks for the video!
Very clear thank you so much
thank you!
If you were to use a syringe with a smaller diameter, you would need to apply less force to generate the same pressure. Force = Pressure / Surface Area of the piston head. If you halved the syringe diameter, you'd need 1/4 as much force to generate the same pressure.
So it was 50 psi? What is 5000 psi then (a real pressure in a gas/oil reservoar)??? Can‘t help waiting for seeing it in your next video😂! This one was great, btw❤!
thanks
Спасибо, мужик.
Sir can I check hyd- fiter elements this processes for example 15 microns value
the video is very informative
go BU
Smaller syringe will generate same pressure with less force!
Was going to say this too