GingerAle

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 #7
avatar+2511 
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Hi Melody, I just noticed your post...

 

Vielleicht könnte ich zu einem See wandern, und einen Fisch fangen!

 

I’ll say that, in your wandering soliloquy, your comment is in perfectly composed German syntax.  I can read and speak German reasonably well at the social level. When the conversation becomes technical, such as in complex science or math, I’ll spend more time using a dictionary or translator than writing or speaking. 

 

Once, while I was staying at a vacation rental near Bonn, the owners’ 22-year-old son, Hans, who was principal caretaker and bellhop, asked if I needed anything.  I wanted the bed moved a few feet closer to the window, so I could see the near full moon setting in the predawn morning. So, I said, 

 

“Bitte hilf mir mein Bett in den Mondstrahlen zu erleben.”

(“Please help me experience my bed in the moonbeams.”)

 

What I should have said is,

"Bitte helfen Sie mir, mein Bett in den Mondstrahlen zu bewegen" 

("Please help me move my bed into the moonbeams")

 

Hans could tell what I meant by my gestures and countenance, and I could tell he was greatly amused by my request.  He also said he’d be very happy to do both. !

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When people take 3 or more spoons of sugar in their coffee I often make a snide remark regarding them having coffee with their sugar.

 

LOL!!  I make similar snarky remarks, and sometimes I ask if I can bring them insulin and a syringe. I usually reserve the insolent-insulin remarks for those who put a third-cup or more of sugar in a twelve ounce mug of coffee.   

----

 

Giving birth to water sounds somewhat less painful than giving birth to a baby.

 

Years ago, I read a science fiction story where the earth-visiting aliens referred to the humans as “big bags of mostly water.”   We are LOL!

 

 

GA

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23 янв. 2022 г.
 #9
avatar+2511 
+3

Here is a much easier way to solve this. The method does not use Hypergeometric selection

 

There are \((3^3) = 27\) arrangements of success. Divide the number of successes by the total number of sets giving \((3^3) / (nCr(9,3) =  \dfrac {9}{28} \approx 32.14\%\)

 

This matches your calculation, Catmg. 

I’m glad you are paying attention to my presentations and train wrecks! OH NO! Not Again!

If my train was loaded with toxic chemicals, I could wipe out a city. Or, in this case, at least send a student down the wrong track.   

 

The calculation is exactly twice the value I presented for the Hypergeometric solution.

The formula is correct, but I must have made a mistake in the calculator input. I always check complex equations three times, but still, it escapes me...

 I saved the input used for the calculation: (3!*nCr(6,2)*nCr(3,2))/((nCr(9,3)*nCr(6,3))

...I used a three (3) instead of a four (4) in the second binomial.

[My great uncle Cosmo was a locomotive engineer (and an electrical engineer), he would have flunked me for me for my train driving skills.] I’d flunk me too!  

 

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Here’s a graphic, demonstrating the arrangements for the above solution.

 

\(\hspace {.3em}\left[ {\begin{array}{ccc} \scriptsize \hspace {.3em} P_1 & \scriptsize P_2 & \scriptsize P_3 \hspace {.2em} \\ \end{array} } \right] \small \hspace {.2em} \text {Persons Horizontal, sets Vertical. }\small \text{ Though identified by number, persons are indistinguishable. }\\ \left[ {\begin{array}{ccc} R & R & R \\ X & X & X \\ X & X & X \\ \end{array} } \right] \text {First arrangement of “R} \scriptsize{s} \normalsize \text {" where“X” is any other card}\\ \left[ {\begin{array}{ccc} R & R & X \\ X & X & R \\ X & X & X \\ \end{array} } \right] \text {Second arrangement} \\ \left[ {\begin{array}{ccc} R & R & X \\ X & X & X \\ X & X & R \\ \end{array} } \right] \text {Third arrangement} \\ \left[ {\begin{array}{ccc} R & X & R \\ X & R & X \\ X & X & X \\ \end{array} } \right] \text {Fourth arrangement} \\ \, \\ \textbf {. . .} \hspace {1em} \textbf {. . .} \hspace {1em} \textbf {. . .} \\ \, \\ \left[ {\begin{array}{ccc} X & X & X \\ X & X & X \\ R & R & R \\ \end{array} } \right] \text {27^{th} arrangement} \\ \)

 

 

From this graphic, it’s easy to see the (3^3) = 27 arrangements of success.

 

 

GA

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20 янв. 2022 г.