![]() It is currently unknown what Dark Six was trying to imply towards Six, but based on her frequent appearances in Little Nightmares, it's suspected to be something which required her to stay close to Six at all times. It's unknown why Dark Six looked at the Maw poster, however, it's suspected that Dark Six might have been aware of something Six was not and could've potential known of something important which could only be found at the Maw. This is supported by Dark Six's independent and sometimes playful behavior in the subway tunnel, where she is seen guiding and following Mono to the nearest exit, as well as her behavior in the secret ending, where she is seen looking towards the Maw poster. It's speculated Dark Six could potentially have a consciousness of her own and had been following Mono throughout his journey to save Six.This scene only plays if Mono has collected all of the Glitching Remains. In the game's secret ending, after Six escapes from the Signal Tower without Mono, the Glitching Remain of Six appeared and looks down at a picture of the Maw before fizzling and fading away into the wind. Hurt, but far from being down for the count, Mono pulls himself together and limps out the tunnel under her lead. The Glitching Remain appears in front of Mono, seemingly wanting to guide him to an exit. However, the train crashes to a stop in a subway tunnel, leaving him momentarily injured with a destroyed remote. When the Thin Man was close to getting Mono, the hero detaches a rail car from another to escape from the broadcaster. Mono sadly looks at what remains of his kidnapped friend before it disappears. In Very Little Nightmares, she appears as one of the boxes that the Girl in the Yellow Raincoat can find near the end of the game.Īfter the Thin Man takes Six, a Glitching Remain that appears similar to Dark Six is left behind. Near the end of The Guest Area chapter, as Six devours a Nome instead of the sausage it had offered her, Dark Six can be seen standing on the table above Six.Īt the end of The Lady's Quarters chapter, after Six bites into the Lady's neck to feast on her, Dark Six can barely be seen in the background where the Lady lies, to Six's left. Near the beginning of The Kitchen chapter, as Six feeds on a rat caught in a trap, Dark Six is seen sitting on some nearby carts in the room, to the right. As Six eats the meat, Dark Six is seen standing high up on a pipeline near the ceiling, to the left. ![]() ![]() In Little Nightmares, Dark Six appears whenever Six is eating, watching her as she devours her meal.ĭuring The Prison chapter, while Six eats some bread given to her by another child, Dark Six can be seen standing atop some boxes, in the far right.ĭuring The Lair chapter, Six is lured into a cage with a piece of meat left by the Janitor for her to eat. However, Dark Six possesses a shadowy silhouette compared to the real Six, her entire body being black as if it were made of darkness. I would love if Noone was six, because six is my favorite character, and I've always wanted to understand her past, and I think it's time for that to be revealed.Dark Six has exactly the same appearance as Six, wearing a raincoat that ends just above her knees with buttons, two pockets, and a rhombus-shaped hood.
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![]() Here's what I found:Īs you can see for yourself, the distribution of rays in both cases is almost identical. If the ray density increases in a gradient index compared to a constant refractive index, then the theory will be more plausible. Since ray-tracing is basically identical for sound and for light, we can directly test the theory. Just to be sure, I ran a few simulations of how optical rays travel in a piece of glass with a linear gradient on the index of refraction. For each ray that bends downwards just enough for you to hear it, I think there would be approximately one ray bending downwards just enough so that you don't hear it. ![]() Even if the temperature gradient changes during certain times of day or seasons, I doubt the effect is noticeable. For starters, the temperature typically decreases as you go higher, so sound waves on an average day would bend upwards. So, could this explain why sounds are louder at night? Honestly, I don't think so. With this temperature gradient, you can calculate that a ray which starts off horizontally will bend over 4 meters downwards as it travels forwards 1 kilometer. That's a rapid change if you go skydiving, you will be a great deal colder in the air, and you can feel the temperature change in real time as you fall. In real life, the temperature in the atmosphere typically falls about 5 degrees for each kilometer you go upwards. In reality, every ray of sound in this situation bends downwards in a curved path, and rays closest to the horizontal bend the most. Now, I couldn't find any actual scientific papers on this topic, and most of the websites online were completely wrong (for example, the explanation here: is NOT what happens). ![]() Since the observer is on the earth, towards which the sound rays are bending, the argument is that you will hear more of the sound than you would without the temperature gradient. Similarly, in the atmosphere it causes the sound waves to bend downwards, towards the earth. This "gradient index" is well-known in optics, where it can be used to make a lens to bend light rays. For example, if the air near the ground is cool, and the air above it is warmer, then the index of refraction decreases with height. The argument usually involves a temperature gradient. However, I have heard qualitative arguments for why sounds could actually be louder at night or in the morning. But when we are lying in bed trying to sleep, and everything is quiet, the train seems especially disturbing. During the day, there are more other sounds that we focus on, and our minds are often distracted with whatever we happen to be doing at the moment, so we don't tend to notice the sound of, say, a train. Now, how do we explain why sounds often sound louder at night than during the day? I am pretty sure the reason for this effect is psychological. The overall effect is that the index of refraction in the glass now varies sinusoidally (like the sound wave), and light is caused to scatter (sort of like a diffraction grating). At points where the pressure from the sound wave is large, the index of refraction is increased slightly (since the medium is more dense), and where the pressure is small, the index decreases slightly. For example, acousto-optic modulators (aka Bragg cells) use standing sound waves inside glass to induce index of refraction shifts. That gives a literal meaning to the phrase "noisy signal"! In other cases, we can use this effect for engineering. For example, sound waves can cause mirrors to vibrate in sensitive optics experiments, thus messing up the data. I should point out, though, that sound can affect light, even if it doesn't happen the other way around. The electric and magnetic fields associated with typical light beams are much smaller than those from a capacitor or a magnet, so if you wanted them to somehow interact with the vibration of particles in a sound wave, you'd probably need a huge laser pointed at the material through which sound was passing. Įven if light weren't so fast, it's hard to see exactly how light could affect sound. Now, the timescale (for example, the oscillation speed or the wave speed) for light is much faster than that for sound, so sound doesn't even notice when light is around.Ī similar example of a "timescale argument" can be found here. Light is made of vibrations in the electric and magnetic fields. Sound is made of vibrations (aka rapid pressure fluctuations) in air, water, or solid material. Your estate plan covers who gets your stuff, how they get it, what happens to you when you die or become disabled, specifics about your medical wishes, and who takes care of any kids or pets. If you can drive it, wear it or shine it, it’s part of your estate. Things like houses, cars, jewelry, investments, coin collections, etc. We’re talking assets-the stuff you own that has monetary value. In the context of financial estate planning, estate simply refers to what you’re going to leave behind, no matter what it is. You should be feeling pretty fancy by now. Do you own an Xbox Series X? You have an estate. But you don’t need to have a scullery maid on staff to have an estate.ĭo you own a 1999 Honda Civic? You have an estate. ![]() If the word estate conjures up images of Downton Abbey, you’re not wrong-that’s definitely an estate. But we can guarantee you’ll feel more confident about your future after you’ve made (and communicated) these decisions to the people you care about most.Īnd we’ll help you get there. This might all seem scary, overwhelming or simply boring. Everything should be smooth and controlled-just like those world-class athletes executing an Olympic relay! ![]() It’s a job where you can’t afford a sloppy handoff. It’s making sure that responsibility and wealth are transferred to the right people in the right way. But what is estate planning? And how can you get some going for yourself?Įstate planning means taking the right legal and financial steps to pass the baton to the next generation. ![]() There’s plenty of teamwork and handoffs leading up to a well-earned victory. Olympians know if they drop the baton, the race is as good as over.Įstate plans work the same way. And the symbol of their teamwork is the baton, which they hand off seamlessly from one runner to the next. Ever watched the track-and-field races during the Summer Olympics? One riveting event is the relay-when a team of runners works together to win. |
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