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09-13-2016, 08:26 AM | #1 |
Yorkie Talker Join Date: Aug 2016 Location: Vancouver
Posts: 13
| Heisenberg the Yorkie Hey everyone, meet Heisy (short for Heisenberg)! This smart little guy just turned a year old last Wednesday. He knows a bunch of tricks, loves to go on hikes, and is the best snuggler. --- Follow my adventures on Instagram: @heisythedanger |
Welcome Guest! | |
09-14-2016, 11:53 AM | #2 |
YT Addict Join Date: Jun 2007 Location: italy
Posts: 263
| Now thats an unusual name for a yorkie. Where did it come from?? |
09-14-2016, 12:44 PM | #3 |
♥Love My Puppies!♥ Donating Member Join Date: Nov 2005 Location: US
Posts: 5,786
| Awwwww, he is SOOOO CUTE!
__________________ RIP My Sweet Darling Angel Daisy 08/09/03 - 10/02/15, RIP My Sweet Baby Boy Teddy Bear 02/01/04 - 02/11/16 Photos HERE |
09-14-2016, 01:47 PM | #4 |
I ♥ my Cookie Monster! Donating Member Join Date: May 2013 Location: South Texas
Posts: 2,999
| Just don't ask him where he's at and where he's going at the same time!
__________________ Cookie ;;; RIP Minnie |
09-14-2016, 01:51 PM | #5 |
Donating YT 3000 Club Member Join Date: Feb 2014 Location: E.Stroudsburg, Pa.
Posts: 67,931
| Welcome to YT. lil Heisy is absolutely 100% adorable.
__________________ Joan, mom to Cody RIP Matese Schnae Kajon Kia forever in my A House Is Not A Home Without A Dog |
09-14-2016, 02:06 PM | #6 |
YT 3000 Club Member Join Date: Feb 2015 Location: Vandalia Il.
Posts: 18,841
| Hello and welcome to you and your lil guy
__________________ Dexter's dad |
09-14-2016, 05:19 PM | #7 |
Donating YT 5000 Club Member Join Date: Aug 2013 Location: Brownstown MI USA
Posts: 18,650
| He is adorable!
__________________ Max & Sasha's daddy |
09-14-2016, 07:16 PM | #8 |
Yorkie Talker Join Date: Aug 2016 Location: Vancouver
Posts: 13
| We're big fans of Breaking Bad. He's the smartest little guy.
__________________ Follow my adventures on Instagram @heisythedanger |
09-14-2016, 10:14 PM | #9 |
YT 1000 Club Member Join Date: Nov 2014 Location: prescott valley az usa
Posts: 1,232
| Welcome from Arizona to you and your handsome guy.
__________________ Jennifer + Buddybear: |
09-15-2016, 04:50 PM | #10 |
YT 1000 Club Member Join Date: Mar 2016 Location: stanley nc
Posts: 1,152
| Welcome to YT from North Carolina. |
09-17-2016, 01:50 PM | #12 |
Yorkie Talker Join Date: Aug 2016 Location: Vancouver
Posts: 13
| Yes!!! Hahaha, thanks for that video.
__________________ Follow my adventures on Instagram @heisythedanger |
09-18-2016, 07:57 PM | #13 |
Action Jackson ♥ Donating Member Join Date: Dec 2008 Location: Maryland
Posts: 17,814
| omg HUGE BB fan here. Love the name. He is adorable.
__________________ ~ Brit & Lights! Camera! Jackson! CGC ETD TKP ~ Follow Jackson on Instagram: https://instagram.com/jacksontheterrier |
09-20-2016, 05:51 AM | #14 |
YT Addict Join Date: Jun 2007 Location: italy
Posts: 263
| Oh dear, I think I missed something here that has to do with his name. Explain... |
09-20-2016, 08:08 AM | #15 | |
I ♥ my Cookie Monster! Donating Member Join Date: May 2013 Location: South Texas
Posts: 2,999
| Quote:
When Walter starts having to get involved with the distribution of the meth he takes the street name Heisenberg, after the Nobel winning German physicist Werner Heisenberg who was one of the main contributors to the development of quantum mechanics. Werner Heisenberg is most famous for the Heisenberg Uncertainty principle, which says you cannot measure the position and the momentum of a particle simultaneously with arbitrarily high precision. Essentially, taking a measurement of one changes the value of the other. In other words you can't know where something is and where it's going with arbitrary precision. I know there has to be some metaphor bound in there with the Heisenberg character in Breaking Bad, but I'm not sure beyond maybe the name indicating how unstable Walter White is as he devolves into Heisenberg, how he can be going anywhere next. A way to describe the Heisenberg uncertainty principle on an intuitive level is that if I want to measure the position of say a particle, I have to hit it with some light or touch it with a ruler, or something that's going to transfer momentum to it. No big deal if I'm hitting a tennis ball with light, a tennis ball is pretty massive and the light won't transfer enough momentum to it to affect its motion by any perceivable amount. But if I shine light at something tiny like an electron that momentum it gains from the light will completely change the electron's momentum since the electron has a tiny mass. On a more technical level you can think of every particle in the universe being described by what's called a wavefunction, which is a complex function over space and time (complex like complex numbers such as 2+3i, where i^2 = -1). If you have a wavefunction f representing your particle, take a small volume dV of space at some fixed time t, and you take the square |f|^2 of the absolute value of the wavefunction f at that point in space where you took the volume dV, then you get a probability measure |f|^2 dV which tells the probability of you finding the particle inside that volume dV when taking a measurement. Normally the wavefunction is made of what's called a superposition of eigenstates. Think of it like when you listen to music. When someone strums his guitar string you don't get a single frequency of sound from it; you get a bunch of different harmonics that combine into that characteristic sound of a guitar. The music you hear from that plucked string is a superposition (e.g. a weighted sum) of the various harmonics. Same with the wavefunction. Any measurement you do collapses that wavefunction from a superposition of eigenstates (just think of them as like harmonics in sound) into a single eigenstate (or like a single harmonic), with the measured value being what's called an eigenvalue. Eg when I measure where an electron is, the electron is no longer in a superposition of states at various different places, it is in the 100% certain state of being in the spot where I found it to be when taking the measurement (it goes back to being a superposition again very quickly after the measurement).
__________________ Cookie ;;; RIP Minnie Last edited by yorkiefan_; 09-20-2016 at 08:11 AM. | |
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