One more thing about membership. If I join NCR, is the membership based on a calendar year or does it run for a complete year from time of signing up.
Thanks.
It runs for a complete year from when you join.
Ken
Hey.... WHats that formula up there?
Am I supose to know that? 😕
Hey.... WHats that formula up there?
Am I supose to know that?
only if you want to claim you're a rocket scientist...
Roger
Unless my brain isn't working correctly tonight.... The formula is for the acceleration of a rocket taking into account the rate at which the fuel is consumed along with the effects of atmospheric presure. Let us know how far I am off Ken.
I don't see an atmospheric pressure term. It's just a basic form of the rocket equation.
(For that matter, it doesn't even appear to have a gravity or drag term)
Right on, Chris. It's the Ideal Rocket Equation - derived from the conservation of momentum of the rocket and fuel by Russian scientist Konstantin Tsiolkovsky in 1903 or so.
Simplistically, P=mV, so you can say that mv of the rocket = mv of the fuel. For the rocket, m is essentially constant, but the velocity changes. For the propellant, the mass changes, but the exhause velocity of the burning fuel is constant.
So,
m delta V = V delta m
mdv = vdm
Do the integration, etc...
Right on, Chris. It's the Ideal Rocket Equation - derived from the conservation of momentum of the rocket and fuel by Russian scientist Konstantin Tsiolkovsky in 1903 or so.
Simplistically, P=mV, so you can say that mv of the rocket = mv of the fuel. For the rocket, m is essentially constant, but the velocity changes. For the propellant, the mass changes, but the exhause velocity of the burning fuel is constant.
So,
m delta V = V delta m
mdv = vdm
Do the integration, etc...
duh..........Hey Joe, what size motor should I put in this one? ......just give me the biggest one that will fit! 😉
Scott E, don't question a guy with a degree in advanced mathematics. 🙄 He will differentially equate your derivative in no time flat, not to mention integrate your limits!
Thanks Scott. I have not laughed so hard in a while.
Hey Joe, what size motor should I put in this one? ......just give me the biggest one that will fit!
That's what it all about, eh?
Thanks Scott. I have not laughed so hard in a while.
Hey Joe, what size motor should I put in this one? ......just give me the biggest one that will fit!
That's what it all about, eh?
Yep. You'll see just how much I took that statement to heart at Oktoberfest 😉
The biggest thing that will fit.... sounds like a plan.
W
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