| hondacuraworld |
The first correct post in this thread will win a really nice Pilot goodie, from yours truly :)
What does this equation represent?
Good luck Googling this one! :2: |
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| N_Jay |
Schwarzschild radius
It is the radius for a given mass where, if that mass could be compressed to fit within that radius, no known force or degeneracy pressure could stop it from continuing to collapse into a gravitational singularity. |
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| hondacuraworld |
CRAP! How the heck did you do that so FAST???
Okay, N_Jay gets the first one. Here's another, for another round, since this one went so fast.....but since N_Jay won the first, he'll have to sit on the sidelines for round two ;)
Gimme a minute to come up with something here..... |
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| N_Jay |
quote:
Originally posted by hondacuraworld
CRAP! How the heck did you do that so FAST???
Okay, N_Jay gets the first one. Here's another, for another round, since this one went so fast.....but since N_Jay won the first, he'll have to sit on the sidelines for round two ;)
Gimme a minute to come up with something here.....
I hope the second one is not something I know, because I had to look up the first one. |
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| hondacuraworld |
I'll be shocked if you knew this one off the top of your noggin.....
Q=A((TO-TI)/(L/K + 1/h)) |
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| Samuel2003 |
quote:
Good luck Googling this one! :2: [/B]
lol If you google "rs = 2gm divided by c2 (or c squared)" ... :D |
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| hondacuraworld |
I tried to Google the NEW contest one, and there ain't no way :2:
Of course, I could be wrong...... |
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| N_Jay |
quote:
Originally posted by hondacuraworld
I'll be shocked if you knew this one off the top of your noggin.....
Q=A((TO-TI)/(L/K + 1/h))
I can't even figure out what field that is from. |
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| newblu |
quote:
Originally posted by hondacuraworld
I'll be shocked if you knew this one off the top of your noggin.....
Q=A((TO-TI)/(L/K + 1/h))
I think this is a heat flow equation for 2 bodies in contact. A is the cross sectional area, TO and TI are temperatures, L is the thinkness, K is the thermal conductivity, and h is the thermal conductance coefficient. |
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| colorider |
quote:
Originally posted by hondacuraworld
I'll be shocked if you knew this one off the top of your noggin.....
Q=A((TO-TI)/(L/K + 1/h))
Ah, is it the "special code" to get a discount when ordering on the Hondacuraworld website?
:2: |
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| hondacuraworld |
"WOULD YOU LIKE TO PLAY A GAME?"
:2:
newblu is really close on this one, but I'll give it a while to see if my friends on the West coast can nail it down exactly..... |
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| sblvro |
quote:
Originally posted by hondacuraworld
"WOULD YOU LIKE TO PLAY A GAME?"
:2:
newblu is really close on this one, but I'll give it a while to see if my friends on the West coast can nail it down exactly.....
newblu is really close on this one but it is not between two bodies but heat flow equation of an object like the metal spoon dipped in a cup of hot coffee example. |
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| jcantanixon |
| Somewhere nearby, my engineering professors are shaking their head at me :confused: |
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| N_Jay |
Got the PM, Tim.
Thanks, I had no idea that first prise was brand new 2009 Pilot with all accessories and 4 years free gas.
:2: :2: :2: |
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| hondacuraworld |
You misunderstood the message.....I said that you GET to be a pilot in 2009, good luck finding accessories, and bring a LOT of gas! :p
You are now the proud owner of a Sikorsky S-58T helicopter, last seen on the 1980's detective show, "Riptide" :2:
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| timahuz |
quote:
Originally posted by hondacuraworld
I'll be shocked if you knew this one off the top of your noggin.....
Q=A((TO-TI)/(L/K + 1/h))
HMMM....
The rate of heat transfer between the bulk of the fluid inside the pipe and the pipe external surface is:
Q=A((TO-TI)/(L/K + 1/h))
where
Q = heat transfer rate (W)
h = heat transfer coefficient (W/m2.K)
L = wall thickness (m)
k = wall thermal conductivity (W/m.K)
A = area (m2)
t0-t1=ΔT = difference in temperature. |
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| hondacuraworld |
| You're REALLY really close on this.......let's give it just a little longer :) |
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| dragoncoach |
quote:
Originally posted by hondacuraworld
You're REALLY really close on this.......let's give it just a little longer :)
Man Tim! You must be REAL busy at work!!!!!!! |
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| hondacuraworld |
quote:
Originally posted by dragoncoach
Man Tim! You must be REAL busy at work!!!!!!!
I think I can hear crickets chirping today. Someone order something! ;) |
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| xGS |
Heat Loss (or gain) - through the walls of an insulated container.
Q=A((TO-TI)/(L/K + 1/h))
Where:
Q is the heat lost or gained in watts
L is the thickness of insulation in meters (m)
K is the Thermal Conductivity of the insulation material in watts/meter C
A is the outside surface area of the container in meters squared (m2).
h is the Heat Transfer Coefficient of the surface material in watts/meter2 C
TO is the Outside temperature in C
TI is the Inside temperature in C |
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| hondacuraworld |
| That man takes the prize! PM me your address :) |
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| N_Jay |
quote:
Originally posted by hondacuraworld
The first correct post in this thread will win a really nice Pilot goodie, from yours truly :)
What does this equation represent?
Good luck Googling this one! :2:
Thanks dude!
Glad FedEx did not lose this one! |
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