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Groups > sci.physics > #519433 > unrolled thread

How do I know my windmill is on straight?

Started bySam Wormley <swormley1@gmail.com>
First post2015-09-06 18:44 -0500
Last post2015-09-07 10:35 -0700
Articles 8 — 4 participants

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  How do I know my windmill is on straight? Sam Wormley <swormley1@gmail.com> - 2015-09-06 18:44 -0500
    Re: How do I know my windmill is on straight? jimp@specsol.spam.sux.com - 2015-09-07 00:39 +0000
      Re: How do I know my windmill is on straight? Sam Wormley <swormley1@gmail.com> - 2015-09-07 12:00 -0500
        Re: How do I know my windmill is on straight? jimp@specsol.spam.sux.com - 2015-09-07 17:09 +0000
          Re: How do I know my windmill is on straight? Sam Wormley <swormley1@gmail.com> - 2015-09-07 12:18 -0500
            Re: How do I know my windmill is on straight? jimp@specsol.spam.sux.com - 2015-09-07 17:56 +0000
    Re: How do I know my windmill is on straight? "reber g=emc^2" <herbertglazier0@gmail.com> - 2015-09-07 10:08 -0700
      Re: How do I know my windmill is on straight? "hanson" <hanson@quick.net> - 2015-09-07 10:35 -0700

#519433 — How do I know my windmill is on straight?

FromSam Wormley <swormley1@gmail.com>
Date2015-09-06 18:44 -0500
SubjectHow do I know my windmill is on straight?
Message-ID<BpidnZofQIhmUnHInZ2dnUU7-cednZ2d@giganews.com>
How do I know my windmill is on straight?
> http://www.askamathematician.com/2015/01/q-how-do-i-know-my-windmill-is-on-straight/


> Physicist: This is a gorgeous question that leads through some pretty
> math and ends with an elegant answer.  If you’ve taken a class or two
> that used lots of vectors, then this is a cute exploration of what
> you can do with surprisingly little.  If you’ve never taken a class
> or two that used lots of vectors, then please do: it’s fun stuff.
> You get to draw pictures and everything.
>
> So you’ve got a flat slab that isn’t quite level.  Two angle gauges
> (with plumb lines or bubbles or whatever) are placed on the slab in
> two directions.  Define \vec{a} and \vec{b} as the directions of the
> two gauges on the ground and \vec{u} as up.  These may as well be
> unit vectors, so: they are.
>

   It's worth going through the derivations.

-- 

sci.physics is an unmoderated newsgroup dedicated
to the discussion of physics, news from the physics
community, and physics-related social issues.

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#519444

Fromjimp@specsol.spam.sux.com
Date2015-09-07 00:39 +0000
Message-ID<jv2vbc-6f5.ln1@mail.specsol.com>
In reply to#519433
Sam Wormley <swormley1@gmail.com> wrote:
> How do I know my windmill is on straight?

The first big wind wrecks it, ass hole.

Get you head on straight and stop your cut and paste spamming, ass hole.


-- 
Jim Pennino

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#519560

FromSam Wormley <swormley1@gmail.com>
Date2015-09-07 12:00 -0500
Message-ID<zdCdnWKzL9wIX3DInZ2dnUU7-XOdnZ2d@giganews.com>
In reply to#519444
On 9/6/15 7:39 PM, Nasty, Name-Calling jimp@specsol.spam.sux.com wrote:
> The first big wind wrecks it, ass hole.

   What make you so sure, jimp?

   How do I know my windmill is on straight?
> http://www.askamathematician.com/2015/01/q-how-do-i-know-my-windmill-is-on-straight/

 > Physicist: This is a gorgeous question that leads through some pretty
 > math and ends with an elegant answer.  If you’ve taken a class or two
 > that used lots of vectors, then this is a cute exploration of what
 > you can do with surprisingly little.  If you’ve never taken a class
 > or two that used lots of vectors, then please do: it’s fun stuff.
 > You get to draw pictures and everything.
 >
 > So you’ve got a flat slab that isn’t quite level.  Two angle gauges
 > (with plumb lines or bubbles or whatever) are placed on the slab in
 > two directions.  Define \vec{a} and \vec{b} as the directions of the
 > two gauges on the ground and \vec{u} as up.  These may as well be
 > unit vectors, so: they are.
 >

   It's worth going through the derivations.


-- 

sci.physics is an unmoderated newsgroup dedicated
to the discussion of physics, news from the physics
community, and physics-related social issues.

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#519575

Fromjimp@specsol.spam.sux.com
Date2015-09-07 17:09 +0000
Message-ID<9vs0cc-gmb.ln1@mail.specsol.com>
In reply to#519560
Sam Wormley <swormley1@gmail.com> wrote:
> On 9/6/15 7:39 PM, Nasty, Name-Calling jimp@specsol.spam.sux.com wrote:
>> The first big wind wrecks it, ass hole.
> 
>   What make you so sure, jimp?

Driving through Altamont and Banning passes and observing the wreckage,
you spamming ass hole.

And just so we are clear, fuck off and die soon ass hole.

-- 
Jim Pennino

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#519579

FromSam Wormley <swormley1@gmail.com>
Date2015-09-07 12:18 -0500
Message-ID<zdCdnZuyL9xAW3DInZ2dnUU7-XOdnZ2d@giganews.com>
In reply to#519575
On 9/7/15 12:09 PM, Nasty Name-Calling jimp@specsol.spam.sux.com wrote:
> Driving through Altamont and Banning passes and observing the wreckage,
> you spamming ass hole.

   Good to know, jimp.


   How do I know my windmill is on straight?
> http://www.askamathematician.com/2015/01/q-how-do-i-know-my-windmill-is-on-straight/

 > Physicist: This is a gorgeous question that leads through some pretty
 > math and ends with an elegant answer.  If you’ve taken a class or two
 > that used lots of vectors, then this is a cute exploration of what
 > you can do with surprisingly little.  If you’ve never taken a class
 > or two that used lots of vectors, then please do: it’s fun stuff.
 > You get to draw pictures and everything.
 >
 > So you’ve got a flat slab that isn’t quite level.  Two angle gauges
 > (with plumb lines or bubbles or whatever) are placed on the slab in
 > two directions.  Define \vec{a} and \vec{b} as the directions of the
 > two gauges on the ground and \vec{u} as up.  These may as well be
 > unit vectors, so: they are.
 >

   It's worth going through the derivations.

-- 

sci.physics is an unmoderated newsgroup dedicated
to the discussion of physics, news from the physics
community, and physics-related social issues.

[toc] | [prev] | [next] | [standalone]


#519602

Fromjimp@specsol.spam.sux.com
Date2015-09-07 17:56 +0000
Message-ID<7ov0cc-60c.ln1@mail.specsol.com>
In reply to#519579
Sam Wormley <swormley1@gmail.com> wrote:
> On 9/7/15 12:09 PM, Nasty Name-Calling jimp@specsol.spam.sux.com wrote:
>> Driving through Altamont and Banning passes and observing the wreckage,
>> you spamming ass hole.
> 
>   Good to know, jimp.

You probably would also like to know you are a cut and paste, spamming
piece of shit, ass hole.


-- 
Jim Pennino

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#519567

From"reber g=emc^2" <herbertglazier0@gmail.com>
Date2015-09-07 10:08 -0700
Message-ID<81121fad-2c7b-4478-abbc-f4a7a489cbea@googlegroups.com>
In reply to#519433
On Sunday, September 6, 2015 at 4:45:02 PM UTC-7, Sam Wormley wrote:
> How do I know my windmill is on straight?
> > http://www.askamathematician.com/2015/01/q-how-do-i-know-my-windmill-is-on-straight/
> 
> 
> > Physicist: This is a gorgeous question that leads through some pretty
> > math and ends with an elegant answer.  If you've taken a class or two
> > that used lots of vectors, then this is a cute exploration of what
> > you can do with surprisingly little.  If you've never taken a class
> > or two that used lots of vectors, then please do: it's fun stuff.
> > You get to draw pictures and everything.
> >
> > So you've got a flat slab that isn't quite level.  Two angle gauges
> > (with plumb lines or bubbles or whatever) are placed on the slab in
> > two directions.  Define \vec{a} and \vec{b} as the directions of the
> > two gauges on the ground and \vec{u} as up.  These may as well be
> > unit vectors, so: they are.
> >
> 
>    It's worth going through the derivations.
> 
> -- 
> 
> sci.physics is an unmoderated newsgroup dedicated
> to the discussion of physics, news from the physics
> community, and physics-related social issues.

I know how the pyramid builders made a perfect level slab. Trebert

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#519591

From"hanson" <hanson@quick.net>
Date2015-09-07 10:35 -0700
Message-ID<mskhsp$2r6$1@dont-email.me>
In reply to#519567
<herbertglazier0@gmail.com> Loudmouthing Cretin & Swine Glazier "reber 
g=emc^2" wrote:
 in message news:81121fad-2c7b-4478-abbc-f4a7a489cbea@googlegroups.com...
> On Sunday, September 6, 2015 at 4:45:02 PM UTC-7, Sam Wormley wrote:
>> How do I know my windmill is on straight?
>> > http://www.askamathematician.com/2015/01/q-how-do-i-know-my-windmill-is-on-straight/
>>
>>
>> > Physicist: This is a gorgeous question that leads through some pretty
>> > math and ends with an elegant answer.  If you've taken a class or two
>> > that used lots of vectors, then this is a cute exploration of what
>> > you can do with surprisingly little.  If you've never taken a class
>> > or two that used lots of vectors, then please do: it's fun stuff.
>> > You get to draw pictures and everything.
>> >
>> > So you've got a flat slab that isn't quite level.  Two angle gauges
>> > (with plumb lines or bubbles or whatever) are placed on the slab in
>> > two directions.  Define \vec{a} and \vec{b} as the directions of the
>> > two gauges on the ground and \vec{u} as up.  These may as well be
>> > unit vectors, so: they are.
>> >
>>
>>    It's worth going through the derivations.
>>
>>
>> sci.physics is an unmoderated newsgroup dedicated
>> to the discussion of physics, news from the physics
>> community, and physics-related social issues.
>
Swine Glazier wrote:
> I know how the pyramid builders made a perfect level slab. Trebert
>
hanson  wrote:
So, Swine Glazier, show how they did it. But don't do it
with your Gutter physics and say that they pissed into
the Gutter, like you piss onto graves in the grave yards.
Bring on ONE (1) new thought, Swine Glazier. 

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