A little more fun:
- Thread starter rattus
- Start date
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Pierre C Belarge
Senior Member
- Location
- Westchester County, New York
After all of your other posts, I thought this one would be over my head again.Not so, the answer to this one is easy...
The ankle bone is connected to the shin bone, the shin bone is connected to the ....
When I try to follow yours and the other bright guys posts, I cannot get past the "shin bone".
The ankle bone is connected to the shin bone, the shin bone is connected to the ....
When I try to follow yours and the other bright guys posts, I cannot get past the "shin bone".
76nemo
Senior Member
- Location
- Ogdensburg, NY
Where do you guys come up with this stuff? Better yet, where do you find the time????
electricman2
Senior Member
- Location
- North Carolina
- Occupation
- Retired Electrical Contractor
Its so far over my head I not only dont know the answer, I dont even understand the question. I thought a phasor was something that Captain Kirk used against the Klingons on star trek.:smile:
BackInTheHabit
Senior Member
- Location
- Lexington, Kentucky
electricman2 said:
"Beam me up Scotty!"
76nemo
Senior Member
- Location
- Ogdensburg, NY
rattus said:
Please understand Sir, I NEVER said it wasn't valid. I am not that arrogant!
Actually, I skimmed by it so quick, I thought it wasn't genuine and you were prodding at it:grin:
cadpoint
Senior Member
- Location
- Durham, NC
- Occupation
- Electrician - but not by NC Law.
Best semi educated guess ? ?
Best semi educated guess ? ?
It's a trick. Be it an optical illusion.
It's the A-C phase angle equaling 120?'s of 3 phase service.
(hint N to B or Vbn is the 120? line- off of Van- flop about NA line, it'd be
A-B phase angle equaling 120?)
No, sorry I'm not going to supply other algebra or calculations just a link.
Here
Best semi educated guess ? ?
It's a trick. Be it an optical illusion.
It's the A-C phase angle equaling 120?'s of 3 phase service.
(hint N to B or Vbn is the 120? line- off of Van- flop about NA line, it'd be
A-B phase angle equaling 120?)
No, sorry I'm not going to supply other algebra or calculations just a link.
Here
mivey
Senior Member
OK, I'll bite:
using @ to represent angle,
Vab = Van - Vbn
and
Van = |Van| at an angle of @a
Vbn = |Vbn| at an angle of @b
and
Van = |Van|*(cos@a+jsin@a)
Vbn = |Vbn|*(cos@b+jsin@b)
so
Vab = [|Van|*cos@a-|Vbn|*cos@b] +j|Van|*sin@a -j|Vbn|*sin@b
OR
Van = Re{Van} +j*Im{Van}
Vab = Re{Vab} +j*Im{Vab}
so
Vab = Re{Van}-Re{Vab} + j*Im{Van}-j*Im{Vab}
EDIT: I forgot to go back to magnitude and direction so:
Vab = |Vab| at an angle of @ab
so
|Vab| = sqrt([Re{Van}-Re{Vab}]^2 + [Im{Van}-*Im{Vab}]^2)
or
|Vab| = sqrt([|Van|*cos@a-|Vbn|*cos@b]^2 + [|Van|*sin@a -|Vbn|*sin@b]^2)
and
@ab = tan^-1([|Van|*sin@a -|Vbn|*sin@b]/[|Van|*cos@a-|Vbn|*cos@b])
or
@ab = tan^-1([Im{Van}-*Im{Vab}]/[Re{Van}-Re{Vab}])
using @ to represent angle,
Vab = Van - Vbn
and
Van = |Van| at an angle of @a
Vbn = |Vbn| at an angle of @b
and
Van = |Van|*(cos@a+jsin@a)
Vbn = |Vbn|*(cos@b+jsin@b)
so
Vab = [|Van|*cos@a-|Vbn|*cos@b] +j|Van|*sin@a -j|Vbn|*sin@b
OR
Van = Re{Van} +j*Im{Van}
Vab = Re{Vab} +j*Im{Vab}
so
Vab = Re{Van}-Re{Vab} + j*Im{Van}-j*Im{Vab}
EDIT: I forgot to go back to magnitude and direction so:
Vab = |Vab| at an angle of @ab
so
|Vab| = sqrt([Re{Van}-Re{Vab}]^2 + [Im{Van}-*Im{Vab}]^2)
or
|Vab| = sqrt([|Van|*cos@a-|Vbn|*cos@b]^2 + [|Van|*sin@a -|Vbn|*sin@b]^2)
and
@ab = tan^-1([|Van|*sin@a -|Vbn|*sin@b]/[|Van|*cos@a-|Vbn|*cos@b])
or
@ab = tan^-1([Im{Van}-*Im{Vab}]/[Re{Van}-Re{Vab}])
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Pierre C Belarge
Senior Member
- Location
- Westchester County, New York
mivey said:
So now I know what the shin bone is connected to.
This is what I meant before, you guys are on a different level.
60 years at this...now I understand.
Pierre C Belarge said:So now I know what the shin bone is connected to.
This is what I meant before, you guys are on a different level.
60 years at this...now I understand.
Fact is, 60 years ago, I heard about power factor. Didn't believe it then. Trying to understand it ever since.
quogueelectric
Senior Member
- Location
- new york
This should be called the relentless forum. :grin:, :smile:mivey said:
Summary:
Summary:
Let me summarize what mivey has done. Correct me if I make a typo.
First, Kirchoff to the rescue. We sum the phasors in a CCW direction, but CW would work just as well.
Vbn + Vab - Van = 0
Vab = Van - Vbn
Now let,
Van = 120V @ 0
Vbn = 120V @ -120
Now convert to rectangular and collect terms,
Vab = 120V -(-60 -j104)V = 120V + 60V + j104V = 180V + j104V
And then back to polar (courtesy of hp)
Vab = 120V @ 30
Note that we had to use subtraction because one of the phasors was pointing against the direction of summation. Note also that algebraic subtraction is nothing more than changing the sign and adding.
Now isn't someone going to ask about sqrt(3)?
Summary:
Let me summarize what mivey has done. Correct me if I make a typo.
First, Kirchoff to the rescue. We sum the phasors in a CCW direction, but CW would work just as well.
Vbn + Vab - Van = 0
Vab = Van - Vbn
Now let,
Van = 120V @ 0
Vbn = 120V @ -120
Now convert to rectangular and collect terms,
Vab = 120V -(-60 -j104)V = 120V + 60V + j104V = 180V + j104V
And then back to polar (courtesy of hp)
Vab = 120V @ 30
Note that we had to use subtraction because one of the phasors was pointing against the direction of summation. Note also that algebraic subtraction is nothing more than changing the sign and adding.
Now isn't someone going to ask about sqrt(3)?
Last edited:
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