thank you soooo much you explained every step most people will skip some steps thinking that viewers are good as them but you are so humble thank you again
Valerye. I have a problem. I have a system. A wall that connects a mass (m1) due a damper and spring. Then another damper and spring that connects a second mass(m2) and a input force that pulls mass(m2) And it is necessary to find the position of mass (m2) after 5 seconds. How can i solve it?
Great ... but is the meaning of all this? For example there are RMS multimeters and non RMS multimeters, RMS ones just take the peak value and multiply it by sqrt(2) ?
thank you soooo much you explained every step most people will skip some steps thinking that viewers are good as them but you are so humble thank you again
Your way of explaining is awesome
Thank you a lot for your explanation and video! I really wanted to know this but didn't know what book to reference.
Valerye. I have a problem.
I have a system.
A wall that connects a mass (m1) due a damper and spring. Then another damper and spring that connects a second mass(m2) and a input force that pulls mass(m2)
And it is necessary to find the position of mass (m2) after 5 seconds. How can i solve it?
Spring and damper are in parallel
Great ... but is the meaning of all this? For example there are RMS multimeters and non RMS multimeters, RMS ones just take the peak value and multiply it by sqrt(2) ?
Amazing! I was confused how the Vrms formula could be used, I guess I'm just still not good with trig identities and knowing integrals by heart.
Nicely done, thank you
Great job...Thank you
thank you for share your knowledge with us
What happened to the simple way to find Vrms?:
Vp x .707 = Vrms
This the derivation or mathematical background as to why we do it. 1/√2≈0.7
The proof above tells us how we get the simple way.
Love it!
Good stuff!
:)