Earendil kept his little hands curled about the handle of his basket. Ladden with snacks and a drink for the elf he was visiting he was very ezcited to be given such a monumental task! Keeping his pace controlled so as not to spill anything, the youngling grinned at the sounds of Rôg of the House of the Hammer wirking outaide today!

Tink

Tink

Tink

Tink

Hisssss

Standing on the appointed side of the guardrail for observers he patiently set his basket at his feet and awaited acknowledment. It did not take long. The large elf looked up wiping sweat from his sun kissed brow with a dirty kerchief. Smiling broadly at his visitor he set his tools carefully down on a work table and placed the metal back in to heat. "Good day young prince! What brings you to my shop on such a lovely afternoon?"

Earendil bounced on his toes giggling as his dark curled hair was ruffled by the very large hand. "Amme and Ada were lunching with Gorfin and Thel! Thel said you did not break fast. Amme was worried so we all made you a snack basket!" He tried to lift the heavy thing to the rail but could not quite make it. He scowled at his arms a moment. Whu do they never do what he needs when he needs!

Rog laughed opening his metal gate and stepping out to the little one. "Do not make such a face you will find more strwngth sooner than you believe. Now." He peered at the array of foods and drink and his heart fluttered at the care his dewr friends put into it. "Well now I could not possibly eat all of this. Though it looks wuite delivious. All of my favorites in fact! Come. That journey of yours must have been exhausting. You can share some of it with me."

Earendil squealed and and bounced on his toes as Rog scooped up the basket and they moved toward the wash spigget and a table. He happily scrambled onto a bench as Rog washed. Picking out the cloth cover he arranged things as best he could. Keeping one of the strawberry tarts for himself. He nibbled on some hard cheese as Rog dug into a large bit of bread and meats. He nibbled thoughtfully his eyes roaming the bare chested elf.

Rog was no fool he knew the elfling had a question. He had watched him ponder it for some weeks now. He had to hand it to Tuor and Idril. Their young one certaintly thought his impulses through before moving forward with any of them. He took a drink of the summer wine nearly groaning at the delicious flavor. He was far to thirsty from all his work today.

"Adar and you have similar marks. But Amme and Daeradar do not. Why is that?"

Rog paused as he went to go for the tart. His hazel eyes stared at the child who was thoughtfully tracing a scar on his tanned arm. He took a thoughtful bite of the sweet. "If your question refers to my scars. You are a clever and observant young one. Aye. Your father and I have similar marks. Though they come from very different situations." He swallowed his food and steepled his fingers. He did not think his parents would appreciate this but he would not lie to a child. Not their child especially. "You know well from the stories you are read there is great darkness in the world. That Darkness can do tremendously horrible things to another being. I have had the unfortunate experience of being held captive by one such aspect of that Darkness."

Earendil nibbled his tart slowly. "Adar was taken to?"

Rog nodded. "By something othet than what I experienced. Yes he was."

The elfling pursed his lips staring at his fingers. "I would yave rescued you."

Rog chuckled at the sudden words. "Aye I bet you would have young one."

"Do they still hurt? You have many more than Adar."

Rog grabbed his wine swirling it about a bit. "At times they can. But it eases as time goes by." He grinned at the child. "And when one is in such good company the mind does not dwell on it."

The young Prince furrowed his brow a bit lost at the answer. Eating the last of the tart he dusted his hands of the crumbs and smiled at the larger elf. "Can we go swimming! Galdor says his pool is finally ready!"

Rog laughed from his belly. This child was wuite an adventure. "Aye we may. Let me finish this and set the forge with another minder!"

Earendil gave a whoop of joy reaching for another bit of cheese. If he helped Rog finishe they could get to swimming sooner!

She should stay away from Griss, Micaiah thinks, even as she watches from the sidelines as Euphorie turns on him: her stamina has started to waver, and it's clear Griss' words were less threat and more a time bomb. Best not to get caught in the explosion.

Best to leave him here, really, to sate his bloodlust against the crawling and creeping things here ready to fight him as he wanted but Micaiah would not suggest it lest she take away Euphorie's revenge. "We should clean up," Micaiah tells Leonardo, still soft; she's done her best to pick up the carapace and parts of the spider they can bring back to camp with the plants and other fungi they've found. It makes her sick to think of eating these things, but so do all her thoughts at the moment.

resource roll: 1! water.

She finds a second carapace, mostly intact and ponders putting Nephele's body on it; she would be easier to carry that way, but so far none have disturbed the corpse besides Brizo who looks between his fallen sister and mother with terror. Micaiah instead pushes the carapace aside and looks further into the cave system; there in the wall is a tiny spigget of what looks like fresh-enough water.

Her hand goes to her belt and she takes what she can in a vial she finds there; surprised at how methodical her actions remain.

"Once we're done here, let's head back. Everyone."

If they continued to gather like this they really wouldn't be able to carry Nephele back to camp, and somehow Micaiah does not think Euphorie wants to bury her here. Not yet.

"He's for the community to judge," Micaiah nods from Euphorie to Griss; "though if you want to leave him here we can."

next: @freedomarrow

"What Is That?!" "Protein!" || Leonardo, Micaiah & Griss

Team Pi: Food Gathering

Roll 1d10 for every post after your starter. Starting with your third, with every post, add +1 to your d10. 1-8: +1 food (your choice if plant or insect) 9-10+: ping key

Possibly spoilers for today’s SAMS episode (Dec 27th), so watch that first

but to all those who already saw it (and those who don’t care for spoilers)

I drew Lunar with his 2 gifts!!

There’s Only One Way To Beat The Speed Of Light

https://sciencespies.com/news/theres-only-one-way-to-beat-the-speed-of-light/

There’s Only One Way To Beat The Speed Of Light

In our Universe, there are a few rules that everything must obey. Energy, momentum, and angular momentum are always conserved whenever any two quanta interact. The physics of any system of particles moving forward in time is identical to the physics of that same system reflected in a mirror, with particles exchanged for antiparticles, where the direction of time is reversed. And there’s an ultimate cosmic speed limit that applies to every object: nothing can ever exceed the speed of light, and nothing with mass can ever reach that vaunted speed.

Over the years, people have developed very clever schemes to try and circumvent this last limit. Theoretically, they’ve introduced tachyons as hypothetical particles that could exceed the speed of light, but tachyons are required to have imaginary masses, and do not physically exist. Within General Relativity, sufficiently warped space could create alternative, shortened pathways over what light must traverse, but our physical Universe has no known wormholes. And while quantum entanglement can create “spooky” action at a distance, no information is ever transmitted faster than light.

But there is one way to beat the speed of light: enter any medium other than a perfect vacuum. Here’s the physics of how it works.

Light is nothing more than an electromagnetic wave, with in-phase oscillating electric and magnetic … [+] fields perpendicular to the direction of light’s propagation. The shorter the wavelength, the more energetic the photon, but the more susceptible it is to changes in the speed of light through a medium.

And1mu / Wikimedia Commons

Light, you have to remember, is an electromagnetic wave. Sure, it also behaves as a particle, but when we’re talking about its propagation speed, it’s far more useful to think of it not only as a wave, but as a wave of oscillating, in-phase electric and magnetic fields. When it travels through the vacuum of space, there’s nothing to restrict those fields from traveling with the amplitude they’d naturally choose, defined by the wave’s energy, frequency, and wavelength. (Which are all related.)

But when light travels through a medium — that is, any region where electric charges (and possibly electric currents) are present — those electric and magnetic fields encounter some level of resistance to their free propagation. Of all the things that are free to change or remain the same, the property of light that remains constant is its frequency as it moves from vacuum to medium, from a medium into vacuum, or from one medium to another.

If the frequency stays the same, however, that means the wavelength must change, and since frequency multiplied by wavelength equals speed, that means the speed of light must change as the medium you’re propagating through changes.

Schematic animation of a continuous beam of light being dispersed by a prism. Note how the wave … [+] nature of light is both consistent with and a deeper explanation of the fact that white light can be broken up into differing colors.

Wikimedia Commons user LucasVB

One spectacular demonstration of this is the refraction of light as it passes through a prism. White light — like sunlight — is made up of light of a continuous, wide variety of wavelengths. Longer wavelengths, like red light, possess smaller frequencies, while shorter wavelengths, like blue light, possess larger frequencies. In a vacuum, all wavelengths travel at the same speed: frequency multiplied by wavelength equals the speed of light. The bluer wavelengths have more energy, and so their electric and magnetic fields are stronger than the redder wavelength light.

When you pass this light through a dispersive medium like a prism, all of the different wavelengths respond slightly differently. The more energy you have in your electric and magnetic fields, the greater the effect they experience from passing through a medium. The frequency of all light remains unchanged, but the wavelength of higher-energy light shortens by a greater amount than lower-energy light.

As a result, even though all light travels slower through a medium than vacuum, redder light slows by a slightly smaller amount than blue light, leading to many fascinating optical phenomena, such as the existence of rainbows as sunlight breaks into different wavelengths as it passes through water drops and droplets.

When light transitions from vacuum (or air) into a water droplet, it first refracts, then reflects … [+] off of the back, and at last refracts back into vacuum (or air). The angle that the incoming light makes with the outgoing light always peaks at an angle of 42 degrees, explaining why rainbows always make the same angle on the sky.

KES47 / Wikimedia Commons / Public Domain

In the vacuum of space, however, light has no choice — irrespective of its wavelength or frequency — but to travel at one speed and one speed only: the speed of light in a vacuum. This is also the speed that any form of pure radiation, such as gravitational radiation, must travel at, and also the speed, under the laws of relativity, that any massless particle must travel at.

But most particles in the Universe have mass, and as a result, they have to follow slightly different rules. If you have mass, the speed of light in a vacuum is still your ultimate speed limit, but rather than being compelled to travel at that speed, it’s instead a limit that you can never attain; you can only approach it.

The more energy you put into your massive particle, the closer it can move to the speed of light, but it must always travel more slowly. The most energetic particles ever made on Earth, which are protons at the Large Hadron Collider, can travel incredibly close to the speed of light in a vacuum: 299,792,455 meters-per-second, or 99.999999% the speed of light.

Time dilation (L) and length contraction (R) show how time appears to run slower and distances … [+] appear to get smaller the closer you move to the speed of light. As you approach the speed of light, clocks dilate towards time not passing at all, while distances contract down to infinitesimal amounts.

WIKIMEDIA COMMONS USERS ZAYANI (L) AND JROBBINS59 (R)

No matter how much energy we pump into those particles, we can only add more “9s” to the right of that decimal place, however. We can never reach the speed of light.

Or, more accurately, we can never reach the speed of light in a vacuum. That is, the ultimate cosmic speed limit, of 299,792,458 m/s is unattainable for massive particles, and simultaneously is the speed that all massless particles must travel at.

But what happens, then, if we travel not through a vacuum, but through a medium instead? As it turns out, when light travels through a medium, its electric and magnetic fields feel the effects of the matter that they pass through. This has the effect, when light enters a medium, of immediately changing the speed at which light travels. This is why, when you watch light enter or leave a medium, or transition from one medium to another, it appears to bend. The light, while free to propagate unrestricted in a vacuum, has its propagation speed and its wavelength depend heavily on the properties of the medium it travels through.

Light passing from a negligible medium through a dense medium, exhibiting refraction. Light comes in … [+] from the lower right, strikes the prism and partially reflects (top), while the remainder is transmitted through the prism (center). The light that passes through the prism appears to bend, as it travels at a slower speed than the light traveling through air did earlier. When it re-emerged from the prism, it refracts once again, returning to its original speed.

Wikimedia Commons user Spigget

However, particles suffer a different fate. If a high-energy particle that was originally passing through a vacuum suddenly finds itself traveling through a medium, its behavior will be different than that of light.

First off, it won’t experience an immediate change in momentum or energy, as the electric and magnetic forces acting on it — which change its momentum over time — are negligible compared to the amount of momentum it already possesses. Rather than bending instantly, as light appears to, its trajectory changes can only proceed in a gradual fashion. When particles first enter a medium, they continue moving with roughly the same properties, including the same speed, as before they entered.

Second, the big events that can change a particle’s trajectory in a medium are almost all direct interactions: collisions with other particles. These scattering events are tremendously important in particle physics experiments, as the products of these collisions enable us to reconstruct whatever it is that occurred back at the collision point. When a fast-moving particle collides with a set of stationary ones, we call these “fixed target” experiments, and they’re used in everything from creating neutrino beams to giving rise to antimatter particles that are critical for exploring certain properties of nature.

Here, a proton beam is shot at a deuterium target in the LUNA experiment. The rate of nuclear fusion … [+] at various temperatures helped reveal the deuterium-proton cross-section, which was the most uncertain term in the equations used to compute and understand the net abundances that would arise at the end of Big Bang Nucleosynthesis. Fixed-target experiments have many applications in particle physics.

LUNA Collaboration/Gran Sasso

But the most interesting fact is this: particles that move slower than light in a vacuum, but faster than light in the medium that they enter, are actually breaking the speed of light. This is the one and only real, physical way that particles can exceed the speed of light. They can’t ever exceed the speed of light in a vacuum, but can exceed it in a medium. And when they do, something fascinating occurs: a special type of radiation — Cherenkov radiation — gets emitted.

Named for its discoverer, Pavel Cherenkov, it’s one of those physics effects that was first noted experimentally, before it was ever predicted. Cherenkov was studying radioactive samples that had been prepared, and some of them were being stored in water. The radioactive preparations seemed to emit a faint, bluish-hued light, and even though Cherenkov was studying luminescence — where gamma-rays would excite these solutions, which would then emit visible light when they de-excited — he was quickly able to conclude that this light had a preferred direction. It wasn’t a fluorescent phenomenon, but something else entirely.

Today, that same blue glow can be seen in the water tanks surrounding nuclear reactors: Cherenkov radiation.

Reactor nuclear experimental RA-6 (Republica Argentina 6), en marcha, showing the characteristic … [+] Cherenkov radiation from the faster-than-light-in-water particles emitted. As these particle travel faster than light does in this medium, they emit radiation to shed energy and momentum, which they’ll continue to do until they drop below the speed of light.

Centro Atomico Bariloche, via Pieck Darío

Where does this radiation come from?

When you have a very fast particle traveling through a medium, that particle will generally be charged, and the medium itself is made up of positive (atomic nuclei) and negative (electrons) charges. The charged particle, as it travels through this medium, has a chance of colliding with one of the particles in there, but since atoms are mostly empty space, the odds of a collision are relatively low over short distances.

Instead, the particle has an effect on the medium that it travels through: it causes the particles in the medium to polarize — where like charges repel and opposite charges attract — in response to the charged particle that’s passing through. Once the charged particle is out of the way, however, those electrons return back to their ground state, and those transitions cause the emission of light. Specifically, they cause the emission of blue light in a cone-like shape, where the geometry of the cone depends on the particle’s speed and the speed of light in that particular medium.

This animation showcases what happens when a relativistic, charged particle moves faster than light … [+] in a medium. The interactions cause the particle to emit a cone of radiation known as Cherenkov radiation, which is dependent on the speed and energy of the incident particle. Detecting the properties of this radiation is an enormously useful and widespread technique in experimental particle physics.

vlastni dilo / H. Seldon / public domain

This is an enormously important property in particle physics, as it’s this very process that allows us to detect the elusive neutrino at all. Neutrinos hardly ever interact with matter at all. However, on the rare occasions that they do, they only impart their energy to one other particle.

What we can do, therefore, is to build an enormous tank of very pure liquid: liquid that doesn’t radioactively decay or emit other high-energy particles. We can shield it very well from cosmic rays, natural radioactivity, and all sorts of other contaminating sources. And then, we can line the outside of this tank with what are known as photomultiplier tubes: tubes that can detect a single photon, triggering a cascade of electronic reactions enabling us to know where, when, and in what direction a photon came from.

With large enough detectors, we can determine many properties about every neutrino that interacts with a particle in these tanks. The Cherenkov radiation that results, produced so long as the particle “kicked” by the neutrino exceeds the speed of light in that liquid, is an incredibly useful tool for measuring the properties of these ghostly cosmic particles.

A neutrino event, identifiable by the rings of Cerenkov radiation that show up along the … [+] photomultiplier tubes lining the detector walls, showcase the successful methodology of neutrino astronomy and leveraging the use of Cherenkov radiation. This image shows multiple events, and is part of the suite of experiments paving our way to a greater understanding of neutrinos.

Super Kamiokande collaboration

The discovery and understanding of Cherenkov radiation was revolutionary in many ways, but it also led to a frightening application in the early days of laboratory particle physics experiments. A beam of energetic particles leaves no optical signature as it travels through air, but will cause the emission of this blue light if it passes through a medium where it travels faster than light in that medium. Physicists used to close one eye and stick their head in the path of the beam; if the beam was on, they’d see a “flash” of light due to the Cherenkov radiation generated in their eye, confirming that the beam was on. (Needless to say, this process was discontinued with the advent of radiation safety training.)

Still, despite all the advances that have occurred in physics over the intervening generations, the only way we know of to beat the speed of light is to find yourself a medium where you can slow that light down. We can only exceed that speed in a medium, and if we do, this telltale blue glow — which provides a tremendous amount of information about the interaction that gave rise to it — is our data-rich reward. Until warp drive or tachyons become a reality, the Cherenkov glow is the #1 way to go!

#News

Nov

Pad and living room

This weekend is exactly what I wanted the house to be. A project that would bring our friends together. Spurlock and Lauren came up to help us build a foundation for the much anticipated Pumphouse. Step 1 to getting drinkable water.

The project started with our first recycled water adventure. Jim and Spurs picked up a water trailor and filled it up from the recycled water spigget just between our place and town. Then the fun part - watering the area of land we were going to dig up with essentially a fire house. The stuff boys dreams are made of I imagine.

With the ground properly soaked, we started to dig up and clear the land first thing Saturday morning. Jim had a plan but given none of us had done this before it was a bit of test and learn. We cleared plants, dug up the ground and used the rake to flatten it all out as best as we could. Then we laid the 2x4xs in the ground and drove stakes in to hold them in place. From there we put down so mesh to keep rodents out. Took the new truck down to the landscape supply shop, filled her up with base rock, dumped that into our sand box and tampered it down. Finally step was another run or two to the landscape spot for gravel and boom - we’d built our foundation.

It was hard work. Plus we had morning bike rides and runs so the avo toast, rooftop cocktails, and pizza were well deserved. Weekends like this I feel grateful for our friends. Spurlock and Lauren crushed the project. We couldn’t have done it without them. Their spirit and energy just makes the station feel even more like a special space.

I also just felt fucking lucky Healdsburg is in one place. This was our first weekend back post fall fires - which I feel like are going to be an every year thing now. I was absolutely beside myself  imaging all of Healdsburg just being wiped off the map. No more farms. No more vineyards. No more tasting rooms.

In my heart I know buying this house is a gamble. Healdsburg is just not going to do well with the drought, flooding and fires that will inevitably come from climate change. It feels vulnerable. Humbling. And at the same time there is a sense of resilience and community I’ve never experienced.

On Friday there was a celebration in the time square that the two didn’t burn down. Bienvenidos Healdsburg - welcome home. The park had a little gratitude wall up where people were writing what they were thankful for (fire fighters) and the kids got a round two of Halloween since everyone was evacuated the weekend before.

Having this house just brings you so close to the weather, the land, farming and water. I mean we had to go get water to just get the land ready to dig because by mid November its not rained a single day. And we are building this pump house for a well that’s likely to dry up in the near future. All of which won’t matter if the whole place burns down.

“Don’t worry you have fire insurance” couldn’t be less comforting. Its not about my house burning down. It’s the entire Sonoma economy that’s going to crash.

In the mean time, I’m enjoying every bit of time we get in Healdsburg and with our friends. And just feeling so lucky everytime I drive down Westside road. There’s something spiritual almost other worldly about it in the fall. The way the sun shines down through the oak trees and across the fields of grape vines turned orange and red for fall.

Oof. Sometimes you get the house and sometimes the house gets you. I got annihilated by the fucking poison oak forest that is Bonney Doon Station. The second time in 1 month. And this time it was brutal. All over my face and behind my ears. Up my legs and way too close to my bikini line.

I’m not sure what was worse the behind ears itching or the mania from taking shit loads of steroids. I’m going to go ahead and rate this as top 5 worst experiences. And to be honest was considering weather or not we’d need to sell the place. I mean what if I could never do any work outdoors anymore? What if I’m allergic to our house?

Jim could see my concern and acted swiftly. He’s promised to bring in the big guns (tractors) to get rid of the invasive, spikey blackberry bush and hopefully the poison oak with it.

From now on it double pants, double shirts, gloves and a lot of washing with technu.

Holy shit it gets cold up here. So cold it froze are pipes...and we almost didn’t have running water for our first Thanksgiving with the Hyman family all in town.

Luckily the boys re-PVC piped the jurry rigged set-up and that turned out to be one of the quicker projects of the weekend. Compared to the bathroom which still managed to be a really nightmare and eventually required back up from a real deal plumber. The good news is we are live - 2 bedroom and 2 working bathrooms!

The weekend highlights were family wine tasting at our new favorite spots: Rafanelli, Siani, and Arista. Lots of Whiskey tasting at Alley 6 and X. Of course not until after the house work was done. Beyond the shower, the boys also painted the new pump house and used some power tools for things. I think we made probably 10 runs to Ace Hardware. Solid long weekend.

And finally Thanksgiving. We got a Healdsburg Turkey Trot, 60 mile ride and dinner at the Morris family residence all into one day.

In America, food stamps don't buy hot food. If you are homeless, you cannot gamble on something as perishable as produce and bread. Tap water is FREE from any sink or spigget without needing to steal. There is no city pipeline of cola or tea or coffee. I don't care where you work, if the corporation takes YOUR paycheck bc a human was hungry, you get mad at the CORPORATION that is taking YOUR PAYCHECK! Full fucking Stop!

This weekend is exactly what I wanted the house to be. A project that would bring our friends together. Spurlock and Lauren came up to help us build a foundation for the much anticipated Pumphouse. Step 1 to getting drinkable water. 

The project started with our first recycled water adventure. Jim and Spurs picked up a water trailor and filled it up from the recycled water spigget just between our place and town. Then the fun part - watering the area of land we were going to dig up with essentially a fire house. The stuff boys dreams are made of I imagine. 

With the ground properly soaked, we started to dig up and clear the land first thing Saturday morning. Jim had a plan but given none of us had done this before it was a bit of test and learn. We cleared plants, dug up the ground and used the rake to flatten it all out as best as we could. Then we laid the 2x4xs in the ground and drove stakes in to hold them in place. From there we put down so mesh to keep rodents out. Took the new truck down to the landscape supply shop, filled her up with base rock, dumped that into our sand box and tampered it down. Finally step was another run or two to the landscape spot for gravel and boom - we’d built our foundation. 

It was hard work. Plus we had morning bike rides and runs so the avo toast, rooftop cocktails, and pizza were well deserved. Weekends like this I feel grateful for our friends. Spurlock and Lauren crushed the project. We couldn’t have done it without them. Their spirit and energy just makes the station feel even more like a special space. 

I also just felt fucking lucky Healdsburg is in one place. This was our first weekend back post fall fires - which I feel like are going to be an every year thing now. I was absolutely beside myself  imaging all of Healdsburg just being wiped off the map. No more farms. No more vineyards. No more tasting rooms. 

In my heart I know buying this house is a gamble. Healdsburg is just not going to do well with the drought, flooding and fires that will inevitably come from climate change. It feels vulnerable. Humbling. And at the same time there is a sense of resilience and community I’ve never experienced. 

On Friday there was a celebration in the time square that the two didn’t burn down. Bienvenidos Healdsburg - welcome home. The park had a little gratitude wall up where people were writing what they were thankful for (fire fighters) and the kids got a round two of Halloween since everyone was evacuated the weekend before. 

Having this house just brings you so close to the weather, the land, farming and water. I mean we had to go get water to just get the land ready to dig because by mid November its not rained a single day. And we are building this pump house for a well that’s likely to dry up in the near future. All of which won’t matter if the whole place burns down. 

“Don’t worry you have fire insurance” couldn’t be less comforting. Its not about my house burning down. It’s the entire Sonoma economy that’s going to crash. 

In the mean time, I’m enjoying every bit of time we get in Healdsburg and with our friends. And just feeling so lucky everytime I drive down Westside road. There’s something spiritual almost other worldly about it in the fall. The way the sun shines down through the oak trees and across the fields of grape vines turned orange and red for fall. 

As you unfold the paper, you realize it is a plea for help.

" HELP!" said the note. " I have my toe stuck in the bathtub spigget, my phone is in the bedroom, this water's freezing, Heathrow Apartments number 3B. "

" Unsigned," said Ex to the Sphinx cat.

Ex considered : could be a beautiful woman ,naked wet and cold, me the hero ; could be a massively huge dude take a forklift to extricate."

Ex refolded the note and put it back on the cat's collar.

Ex said to the Sphinx," Don't like cat people," and walked off.

wait maybe he means like a one-liner like "hey baby ru from tennesse because have sex with me pls"

Not gonna lie, the water spigget got me bad... @pet-of-subs

This has "somebody touch-a my spigget" vibes all over it.

why are you so cool!?!?!

i just i dont even know i guess im just special

and blog rate

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JUSt kiDDING i love you um lets see 

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