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Tuesday, November 30, 2021

Why does COVID-19 seem to have so many more variants than other pandemic-inducing pathogens?

Why does COVID-19 seem to have so many more variants than other pandemic-inducing pathogens?

Why does COVID-19 seem to have so many more variants than other pandemic-inducing pathogens?

Posted: 30 Nov 2021 02:26 AM PST

To clarify, the title is merely my perception of the situation, not an assertion of fact!

Basically it feels like compared to other pandemics in history, such as Spanish flu, the pandemic resulting from this particular coronavirus has included many more variants and possibly is more long lasting.

My guess is that compared to former pandemics, we are simply a lot better at identifying new variants, so prior similar episodes were lumped into one single pathogen? As for the longevity, it may be because we're actually a lot better at preventing death and spread than in previous pandemics, there are more uninfected people for a longer period of time leaving them open to infection for longer?

These are just some of my guesses, but i'm curious if my perception is just simply incorrect or if not, what the actual reasons are behind these phenomena.

submitted by /u/physioworld
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AskScience AMA Series: Testing Your Poop to Support Public Health: We Are Wastewater Surveillance Experts, Ask Us Anything!

Posted: 30 Nov 2021 04:00 AM PST

Let's talk wastewater-based epidemiology (WBE)!

WBE uses wastewater (aka, sewage) sampling to track public health at a population level with geographic specificity. While it has been around for decades, wastewater surveillance really entered primetime as a tool for tracking the spread of COVID-19. By detecting cases before symptoms emerge, wastewater surveillance can act as an early warning system for outbreaks and even variant detection, helping local organizations and governments keep ahead of the curve.

In the U.S., the CDC and HHS created the National Wastewater Surveillance System (NWSS) to monitor community spread. Similar efforts have cropped up around the world including the Sewage Analysis CORe group Europe (SCORE) and the Global Water Pathogen Project (GWPP). Many of the resulting studies can be visualized using the COVID-19 WBE Publication Map.

At this point, you may be wondering: How on earth can scientists detect trace amounts of a virus in municipal wastewater? The average American uses approx. 82 gallons of water at home every day! Despite this volume, tools like Droplet Digital PCR allows scientists to detect one infected individual in 10,000, as many as six days before they would test positive via a nasal swab.

There are so many more techniques, programs, and applications (incl. tracking other infectious diseases, drug use, etc.) possible with WBE. We can speak to topics such as:

  • The history of wastewater testing and how wastewater surveillance works
  • How wastewater surveillance has helped track COVID-19 outbreaks
  • The technology that makes it possible, including ddPCR
  • The overall research landscape surrounding WBE and its future applications
  • Other general questions about WBE challenges, science policy, infrastructure, overall execution, and beyond

Feel free to start sharing your questions below. We'll be answering them live today (11/30) starting at 5:00 p.m. EDT (2 p.m. PDT, 22 UT).

A bit more background on us:

  • Colleen Naughton, Ph.D. - Assistant Professor of Civil and Environmental Engineering at the University of California Merced (u/COVIDPoops19)
    • Dr. Naughton's lab designs sustainable and culturally sensitive Food-Energy-Water Systems for and with the Underserved (FEW-US) locally, nationally, and globally. She co-leads the COVIDPoops19 dashboard, which aggregates COVID-19 WBE efforts from 270 Universities, 3,075 sites, and 58 countries. As part of this project, she manages the @CovidPoops19 Twitter handle. Dr. Naughton is also a part of a global data center for wastewater and COVID-19, W-SPHERE. She completed her Ph.D. in Civil Engineering from the University of South Florida, spent 10+ years working in Africa (North and West), and is a former AAAS Science Policy Fellow.
  • Mats Leifels, Ph.D. - Research Fellow at the Singapore Centre for Life Science Engineering at Nanyang Technological University (NTU) in Singapore (u/M1r0lin0)
    • An expert in infectious disease detection in water sources, wastewater, and the aquatic environment, Dr. Leifels helped implement and coordinate the wastewater monitoring program as part of Singapore's National SARS-CoV-2 strategy. He has published extensively on the detection of SARS-CoV-2 in the environment, but also works with a broad range of enteric pathogens, from dengue to Zika virus, using methods such as quantitative PCR. Dr. Leifels is an assoc. editor for Elsevier's International Journal for Hygiene and Environmental Health.
  • Leo Heijnen - Molecular Microbiologist at the KWR Water Research Institute (u/Leo_Heijnen)
    • A leading voice in the application of molecular methods for health-related microbial water quality, Leo Heijnen has spent over two decades working on water quality at KWR--a non-profit research institution that brings new scientific knowledge to the water sector. He was a pioneer in the development and implementation of molecular and DNA-based technology for monitoring the urban water cycle, which has since become routine practice in many regions. Prior to KWR, Leo worked as a research scientist at the KeyGene N.V., an AgBiotech company, and as a molecular virology research technician at both Leiden University and Utrecht University.
  • Tara Ellison, Ph.D. - Senior Field Application Scientist at Bio-Rad Laboratories (u/BioRad_Laboratories - Tara)
    • Dr. Ellison is a field application scientist with over 20 years of experience in molecular biology and transcriptional regulation in the fields of metabolism, cancer, and biomarker detection. She trains researchers on quantitative and Droplet Digital PCR technologies and assists them with developing robust methodologies for nucleic acid quantification. Dr. Ellison has a Ph.D. in Pharmacology from Case Western Reserve University and was formerly a postdoctoral fellow at UT Southwestern Medical Center in Dallas.
  • David Eaves - Field Application Scientist, Regional Manager, at Bio-Rad Laboratories (u/BioRad_Laboratories - David)
    • David Eaves is an expert in molecular techniques (particularly quantitative PCR, ddPCR, and next-generation sequencing), supported by over 15 years of hands-on molecular biology experience, working in both research and clinical environments. He has translated this experience to support researchers as a field application scientist, technical sales specialist, and now as manager of a team of genomics and proteomics application scientists for Bio-Rad Laboratories. Prior to this, Eaves spent 8 years at Cincinnati Children's Hospital Medical Center, serving as a senior molecular pathology technician and research assistant.
submitted by /u/AskScienceModerator
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Does the sun have tides?

Posted: 30 Nov 2021 11:47 AM PST

I am homeschooling my daughter and we are learning about the tides in science right now. We learned how the sun amplifies the tides caused by the moon, and after she asked if there is anything that causes tides to happen across the surface of the sun. Googling did not provide an answer, so does Jupiter or any other celestial body cause tidal like effects across the sun?

submitted by /u/Nazgul044
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Is there any evidence that psilocybin can harm the brain long term?

Posted: 30 Nov 2021 06:06 AM PST

Hi there

It seems like there is so much data nowadays that psychedelics can help your brain -- increasing neuropathways, etc.

Is there any data that shows long-term damage to the brain, like other drugs (ie meth) do? At what point does micro dosing become harmful.. if at alll?

submitted by /u/SurferKidsBugMe
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Why would vaccines target the spike protein, when it's the most mutable protein in covid? If the spike protein isn't the most mutable, why don't they target multiple proteins?

Posted: 29 Nov 2021 06:59 PM PST

I was scrolling through popular and ran into this post (yeah I know, it's from conspiracy).

Anyway, upon looking at the sources, it seems like future variants of covid will have more variation in the spike protein. Also, it looks like the spike protein had more mutations before vaccines were even accessible yet. As a matter of fact, the N-protein had MORE selective pressure from the presence of natural immunity at the time (because it was the only type of immunity) and STILL was less mutable than the spike protein. And now, the spike protein is mutating even MORE with the vaccine. Could I be looking at the article incorrectly? It's like the vaccine is doomed to some (un)planned obsolescence when using the spike protein.

So I have two questions, why would they select the most mutating protein, and why would the selective pressures from natural immunity not be as strong?

submitted by /u/Awesome_fire
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Why can the body recover from a Covid-19 infection long before a person is considered fully protected via vaccine?

Posted: 30 Nov 2021 10:49 AM PST

If a routine Covid-19 infection takes a person's body roughly 2 weeks to suppress the virus, why does a fully-vaccinated person take over a month to achieve similar protection?

submitted by /u/Knineteen
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Do we name flu variants like we do for Covid or does no one bother because no one cares?

Posted: 29 Nov 2021 10:52 PM PST

Does the flu get a new non technical name every year or does no one bother because no one cares?

submitted by /u/Gaymface
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Does Mars really have a rock-cycle based on climate change? Is it still active today?

Posted: 29 Nov 2021 09:30 PM PST

I recently attended a lecture about the findings of the Curiosity Rover, and one thing mentioned was that the rock cycle found on the planet's surface was based upon wind, aquifers, and atmospheric changes in the past. I'm curious to know if that's really true, and how it works (as it was only mentioned), and if it could still be active today.

submitted by /u/EpicWinterWolf
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How Are CD4+ T Cells Activated by APCs from mRNA Vaccines?

Posted: 29 Nov 2021 11:04 PM PST

Edit: answered here

I've been reading a book on immunology (Molecular and Cellular Immunology 10th ed. by Abbas) to try and get a better understanding of the immune system. I've been using the COVID-19 mRNA vaccine (and other vaccines) to get a better clinical understanding of what I'm learning from the book. One thing I'm having trouble with is how the CD4+ T cells are activated by APCs like dendritic cells. I understand that the mRNA enters the dendritic cell where it is transcribed into the spike protein, which then gets broken down by proteasomes into peptide fragments that are shuffled into the endoplasmic reticulum for complexation with type I MHC. This activates CD8+ which is great, it makes a lot of sense for a viral infection, but if the spike protein sits in the cytosol of the APC then how is it endocytosed for Type II MHC proteins that activate CD4+ T cells?? As I understand it, the two pathways for type I & type II MHC antigen presentation depend on the location of the antigen for processing, with type I MHC stemming from cytosolic antigens and type II MHC stemming from endosomes (e.g., bacterial cells that were gobbled up by macrophages).Does the protein antigen transcribed by mRNA leave the dendritic cell so that it can be captured and endocytosed by other antigen-presenting cells? Or is there another way for cytosolic antigen to enter the MHC-II pathway?

I hope that question makes sense, thank you.

submitted by /u/MonawaMoonkin
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What happens when different variants of the same virus infect a host? Do they share the space and multiply or do they compete on a molecular level?

Posted: 29 Nov 2021 05:25 PM PST

This is obviously in reference to the new variant discovered recently. But I think it applies to other viruses as well.

submitted by /u/dsr0057
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Why is there a finite limit on the evaporation rate of a liquid at infinite temperature?

Posted: 30 Nov 2021 02:51 AM PST

I am curious why there is a finite evaporation rate for any liquid at infinite temperature? The evaporation rate relates to the vapor pressure of a liquid as a function of the liquids temperature. This follows a exponential dependence at saturates to 1 at infinite temperature, implying that the vapor pressure also saturates at infinite temperature. This is based off the dependence observed from the Clausius Clapeyron Equation

What is the physical interpretation of this finite limit to the vapor pressure of a liquid and thus its evaporation rate? Does the CC Equation not hold when approaching finite temperature? Is there something else that I am missing to explain this finite limit?

Note: this seems to still hold in a vacuum system (which is what I am working with). So I am unsure about the idea that this saturation comes from condensation

submitted by /u/ColourOfEternity
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Positron beam for medical purposes?

Posted: 29 Nov 2021 08:17 PM PST

I understand that the engineering and physics of making such a device are in question, but hypothetically if one had access to a positron beam, as opposed to a classical electron beam, could you theoretically target cancer cells and essentially disintegrate the constituent molecules via annihilation of their bonded electrons? Or would a beam like this be too destructive, damaging too much non cancerous tissue? OR is the probability of a beam of this type intersecting a bonded electron too low for any meaningful amounts of annihilation occur? I know it's a little silly but I'd love to hear what you guys think

submitted by /u/GusBGood
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How does the nervous system control how MUCH a muscle contracts?

Posted: 29 Nov 2021 02:58 PM PST

I understand that a signal travels from the brain, through the nerve, to the muscle through a neuromuscular junction, but how does it differentiate between, say, a gentle pinch of two fingers, and as much strength as the muscle can give?

submitted by /u/Urb4n0ninj4
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Do manual transmissions or automatic transmissions get better gas mileage? Why?

Posted: 29 Nov 2021 09:31 AM PST

I hear manual transmissions used to be more efficient, but that modern automatic transmissions have improved to the point that they're equal or better. Is this true? Why is one or the other more efficient?

submitted by /u/interiot
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At what point does something become a new species, where is the line?

Posted: 29 Nov 2021 02:48 PM PST

Where would the Heisenberg uncertainty principle apply in this case?

Posted: 29 Nov 2021 01:50 PM PST

Imaging shooting an electron at a detector. After the electron hits the detector, we know its exact location the exact moment it hits the detector. But we can also determine its velocity since we can measure the time it takes for the electron to travel the distance between the electron gun and detector. Thus, we would be able to calculate the electron's position and velocity the exact moment the electron hits the detector.

Of course, I'm assuming that the electron doesn't change speed or direction as it is shot. But if there is no interference and the experiment were to occur in a vacuum, why would it differ from its course?

submitted by /u/UsedToothpick
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vào lúc No comments:

Monday, November 29, 2021

How do drugs know where to go in the body?

How do drugs know where to go in the body?

How do drugs know where to go in the body?

Posted: 29 Nov 2021 06:45 AM PST

First of all, I obviously don't think medicine is actually making the choice of where to go.

But, if I take (for example) acetaminophen for a sprained ankle, adderall for my adhd, and bupropion and lamotrigine for my bipolar, how does all of that get to where it needs to go? Is it just a matter of getting distributed evenly through the body and then absorbed wherever there happen to be receptors that fit the molecules? Doesn't that end up being really inefficient? -- seems like most of the actual meds would just get filtered out pretty quickly.

Is that were drug interactions come from? -- multiple drugs competing for the same receptors?

EDIT: holy crap. I was not expecting this quantity or quality of responses. Seriously, i think I learned more here than an entire semester of biology. Every comment is a gem. Thank you all for your time and energy! It is very appreciated.

submitted by /u/pobopny
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Does putting batteries in a fridge extend their life span?

Posted: 29 Nov 2021 06:40 AM PST

Does putting batteries in a fridge extend their life span? personally I believe it does but the cold weather can cause rust

submitted by /u/Toster_is_toasty
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Does the direction a language is written and read have any effect on the hand used for writing in those languages?

Posted: 29 Nov 2021 12:59 PM PST

Put another way: Right-handedness is predominant among languages written left-to-right.

Is left-handedness more prevalent (or even dominant) among languages written right-to-left?

Either way, does science give us any indicators as to why?

submitted by /u/well_shoothed
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If a person were to be taking antiviral drugs when taking a viral vector vaccine, would that ruin the effect of the vaccine?

Posted: 29 Nov 2021 10:18 AM PST

As in, would that destroy and prevent the spread of the adenovirus and thus render the vaccine useless and effectively make it as if the person pretty much received a placebo?

submitted by /u/Razer531
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Will we get any warning before the next megathrust event on the cascadia subduction zone? (There's no geology flair?)

Posted: 29 Nov 2021 11:26 AM PST

I live in western Washington. Sooner or later the 1700 quake will happen again.

submitted by /u/brushpickerjoe
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Is there an experiment to prove two particles are entangled without measuring one or the other?

Posted: 29 Nov 2021 11:26 AM PST

Is there any possible way to know that two particles are entangled without measuring them in the first place?

Specifically I am thinking in the way of quantum circuits. Is there some gate combination we can run them through that does not involve measuring the original entangled pair. But gives us some separate output we can measure with a state of 1 being the originals are entangled and 0 if they are not.

submitted by /u/ryandeanrocks
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If COVID has so many variants, why are only certain strains (Delta and Omicron) the most feared (at this point in time)?

Posted: 29 Nov 2021 07:07 AM PST

Why does a higher thermal conductivity in the core lead to later inner-core formation?

Posted: 29 Nov 2021 06:51 AM PST

I am confused--intuitively, it feels like higher conductivity would cool the core faster, and so we'd get an older inner core.

But in the literature a higher conductivity is always given as a reason for a younger core (it's never really explained).

Can anyone explain what's actually going on? What am I missing here? Thanks!

submitted by /u/wabalaba1
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How does the air flow in an accelerating train?

Posted: 28 Nov 2021 10:02 PM PST

If the air is not in motion and the train starts accelerating, how would the air change within the entire train. Some visuals would be nice :).

Currents studying fluid dynamics and the question came to mind wanting to see a 3D visual.

submitted by /u/Stevhan
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vào lúc No comments:

How do antibodies find viruses? It's not like they can tell from afar that there is one and then "swim over", can they?

How do antibodies find viruses? It's not like they can tell from afar that there is one and then "swim over", can they?

How do antibodies find viruses? It's not like they can tell from afar that there is one and then "swim over", can they?

Posted: 28 Nov 2021 01:54 PM PST

Is it just a game of chance, where there's enough antibodies produced that they are bound to "bump" into a virus?

submitted by /u/wattnurt
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How can new Covid-19 variants be identified so quickly outside the lab, like in an airport holding passengers?

Posted: 28 Nov 2021 01:52 PM PST

How were the Great Lakes formed?

Posted: 28 Nov 2021 08:54 PM PST

This one has been bouncing around my head for a long time. I've lived within an hour of a Great Lake for 20/24yrs of my life, and I still don't understand how they came to be. I've googled it, and all the sites say is "the Great Lakes were formed by the melting of the Laurentide Ice Sheet during the last ice age". I just can't seem to wrap my head around how it all fits together - why is Erie so shallow? Why is Superior so deep? Why the disparity between the two, and how did the melting ice sheet cause it?

Thank you in advance, I really apprecite it!

submitted by /u/Braewing
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What are the mutations in the Omicron COVID variant, and what is it about these particular mutations that make scientists worried about it?

Posted: 28 Nov 2021 01:57 AM PST

When they talk about mutations “escaping” vaccine protection, is it a sliding scale or all-or-nothing?

Posted: 28 Nov 2021 09:13 AM PST

I kept hearing that this Omicron variant has the potential to escape vaccine protection, and the word escape to me implies completely avoid it. Is that what escape means in this context, or does escape mean that it reduces but doesn't nullify the protection of vaccines?/r/

submitted by /u/kuromahou
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Could you theorticly make an modern LCD TV screen that work only in black and white?

Posted: 29 Nov 2021 03:02 AM PST

For everyone wondering, I'm writing a story and I want it to be possiable in universe to buy a b/w TV set in modern times, but I still want to make it realistic in the terms of science, so I need to choose if they simply still make CRT TVs, or just have a b/w LCD screen option, so, is a b/w LCD TV could be a thing?

submitted by /u/Math383838
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Why do COVID-19 variants mutate in immunocompromised individuals?

Posted: 28 Nov 2021 04:36 PM PST

If Omicron likely came from one immunocompromised individual, what did that person's immune system have to do with how the variant could mutate?

submitted by /u/disgruntled-pelicans
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How do they measure the movement of continents ?

Posted: 28 Nov 2021 08:36 PM PST

Why is the new COVID variant being called "Omicron" rather than "Nu"?

Posted: 27 Nov 2021 03:09 AM PST

If they follow the Greek alphabet then the new one should be called "Nu". So why did they skip not one, but two letters to "Omicron"?

submitted by /u/Truth_Speaker_1
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How do biologists determine overpopulation of a certain species?

Posted: 28 Nov 2021 10:43 AM PST

I was just reading about the overpopulation of sea urchins on the U.S. pacific coast. I began wondering how scientists actually deem if a population is officially dangerous to its ecosystem. Are there certain factors that go in to determining an overpopulation threshold? How do biologists decide if an ecosystem is out of balance due to one or more populations' growth?

submitted by /u/avakato
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How does the vaccine distribution work in the human body. I saw some people say something that it stays at the injection site and others say it doesn’t. Don’t all vaccines spread in the body ?

Posted: 28 Nov 2021 12:01 AM PST

I'd really appreciate some articles/studies showing how distribution works to better understand.

submitted by /u/strictlyscience22
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Can annual plants become perennial in controlled environments?

Posted: 27 Nov 2021 09:22 AM PST

If I take my marigolds inside for the winter to protect them from the elements, will they continue to flourish or are they genetically 'programmed' to die after one growing season regardless of the weather?

submitted by /u/jules-plastiek
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Are there documented COVID-19 cases linked to surface-to-patient transmission?

Posted: 27 Nov 2021 11:23 PM PST

Either way, why do many places seem to emphasize surface sanitization and hand washing as opposed to ventilation?

submitted by /u/redct
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What are the odds of the Omicron variant occurring through convergent evolution in different countries?

Posted: 27 Nov 2021 11:58 PM PST

Can you apply the principles behind dendrochronology to estimate the age of a carrot?

Posted: 27 Nov 2021 08:10 AM PST

Crazy post, I'll admit. My carrot has rings when I cut a cross section. Can I determine its age? I suppose it's age in growing days?

submitted by /u/dangle321
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Why were the retro rocket packs on the Mercury capsules painted with silver and black stripes?

Posted: 27 Nov 2021 09:53 PM PST

For years I thought the stripes were structural ribbing, but I've never been able to find any photos other than simple painted on stripe on the Mercury spacecraft. Why is that?

submitted by /u/dv73272020
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How long does a general Coronaviruses/Rhinoviruses (Common colds, not Covid-19) take to incubate? Do they generally have a infectious but non-symptomatic period?

Posted: 27 Nov 2021 02:00 PM PST

I'm sure this part is old turf, but one of the things that makes Covid-19 so devastating is the combination between incubation period, non-symptomatic spread, and severity of symptoms. I remember doing a lot of reading about the Covid Incubations and asymptomatic as we were learning more but I'm wondering if there is historical data or recent studies on the less dangerous coronaviruses and rhinoviruses to see if Covid-19 is novel on those fronts?

submitted by /u/WriggleNightbug
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What is oobleck and what does it mean for something to be non-newtonian?

Posted: 27 Nov 2021 07:43 PM PST

I keep on reading that it is a "non-newtonian" solid. What does non-newtonian mean exactly and how can we say that it is not liquid? Why does applying pressure to the corn starch and water mixture cause the liquid to harden? How is this able to act as it does on a molecular level?

Sorry that my questions are all jumbled up. This thing is so bizzare to me.

submitted by /u/AccomplishedMood3191
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How come endometriosis is not treated like cancer?

Posted: 27 Nov 2021 07:14 AM PST

This disease occurs when the endometrial-type tissue grows outside of the uterus and implants itself into other organs such as bowels.

Edit: I see there are 10 comments but I don't know why I can't open and read them.

submitted by /u/Gracilis67
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What does it mean when a new variant of a virus becomes the dominant variant? Is there actually a decrease in cases caused the other variants? If so, how does that happen?

Posted: 27 Nov 2021 05:48 PM PST

Why does infection cause increased blood sugar in diabetics?

Posted: 27 Nov 2021 09:44 AM PST

I'm a type 1 diabetic and have been lucky enough to be very healthy, I recently had a pretty bad infection and the first thing I noticed was my blood sugar became near unmanageable. Why is this?

submitted by /u/Young_warthogg
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How many Sol-like systems are out there/do we know of?

Posted: 27 Nov 2021 06:15 PM PST

The Copernican principle says that we shouldn't consider our position in the Universe extraordinary or peculiar in any particular regard. But I only ever hear about extrasolar systems with 'hot jupiters', planets with higly eccentric orbits, and so on. The Trappist system is similar, but everything is super-close in.

Do we expect other Sol-like systems out there and we just haven't found them, or are we just somehow lucky?

submitted by /u/boundbylife
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Do we need new Covid tests kits for every strand of mutations?

Posted: 27 Nov 2021 05:49 AM PST

How do rapid lateral flow tests detect Covid? Are they targeting a specific strain/mutation? Do we need to changes the tests kits for every mutation?

submitted by /u/ncoif
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If plants are intentionally bred to have polyploidy, and therefore sterile, how are these plants then reproduced?

Posted: 27 Nov 2021 10:31 PM PST
vào lúc No comments:

Friday, November 26, 2021

What's the dry, papery layer inside a peanut shell and what's it for?

What's the dry, papery layer inside a peanut shell and what's it for?

What's the dry, papery layer inside a peanut shell and what's it for?

Posted: 26 Nov 2021 08:34 AM PST

It's not connected to anything but is (static?) clinging to the "nut"/legume itself, it must have dried off of something?

submitted by /u/jeremyfrankly
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Can someone please explain the name of the newest covid variant B.1.1.529 ?

Posted: 26 Nov 2021 12:55 AM PST

I know it is based on PANGO system: https://en.wikipedia.org/wiki/Phylogenetic_Assignment_of_Named_Global_Outbreak_Lineages

Can you explain how does the PANGO system work?

Does it always start with a letter? What does the letter means?

What does the dot means?

What does the number mean?

I know the complete explanation is here: https://www.pango.network/the-pango-nomenclature-system/statement-of-nomenclature-rules/

But it is too difficult for me to understand.

submitted by /u/BeatriceBernardo
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How exactly does a Hypernova eject matter at 99% the speed of light when Supernovas only eject matter at 3% the speed if light?

Posted: 25 Nov 2021 01:25 PM PST

Historically speaking, how was breathing/respiration explained?

Posted: 26 Nov 2021 07:31 AM PST

People must have been aware that you need to breathe in order to stay alive. How did they try to explain this before the modern explanation was established?

submitted by /u/Schmiergeld
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How are new Covid variants detected?

Posted: 26 Nov 2021 08:36 AM PST

Is it possible to make depleted radioactive compounds more radioactive again?

Posted: 26 Nov 2021 02:31 AM PST

I've got no idea how But since radioactive compounds decay into other compounds wouldn't it be possible to put the compounds back ?

submitted by /u/IllBoysenberry2322
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Does the placebo effect work on animals?

Posted: 26 Nov 2021 02:36 AM PST

What holds the debris together of an object that has been torn apart by tidal forces around a larger body after crossing it's Roche limit? Or how large can those remnants be?

Posted: 26 Nov 2021 02:57 AM PST

Hi, hope you are all well. When a planet, moon, etc. crosses the Roche limit of a larger, more massive body, and is torn apart, what sets the limit on how small those fragments can be, and is there a calculable lower limit on their size?

Thanks!

submitted by /u/Ixthos
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Can a paralyzed body part still convulse during a seizure? Like, if someone is paralyzed from the waist down, will their legs still convulse during a seizure?

Posted: 25 Nov 2021 09:00 PM PST

I honestly don't know how this question came to my mind.

submitted by /u/Lumini_317
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I've heard the eyes are an independent microbiome from the rest of the body, but is each eye an independent microbiome from one another? Or, if they are connected, how? Maybe through the optic nerve?

Posted: 26 Nov 2021 05:41 AM PST

Do inflammatory markers vary over time?

Posted: 26 Nov 2021 05:26 AM PST

I work on a ward with elderly patients and notice that not all have clearly raised inflammatory markers with infection, some of them have random fluctuations day by day. What could be causing this ? A one day lasting cause? (often its ptients with various comorbidities)?

submitted by /u/nickoskal024
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Can an object be accelerated to (almost) the speed of light arbitrarily fast?

Posted: 25 Nov 2021 07:32 PM PST

Or is there a physical limit to acceleration as well as speed? Thank you.

submitted by /u/icecap1
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how do we know what killed the dinosaurs?

Posted: 25 Nov 2021 11:12 PM PST

(which flair?) to elaborate my question: is there proof of it being a asteroid that wiped the dinosaurs or is it just assumptions made since its the most logical conclusion? edit:thanks for the answers

submitted by /u/fnafproo
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Are booster vaccines really effective? And should young people get them?

Posted: 26 Nov 2021 08:33 AM PST

Does tiny almost not noticeable eartquakes happend regulary?

Posted: 26 Nov 2021 07:27 AM PST

I've noticed something strange. sometimes i feel like what i would describe as an extremely gentle earthquake feeling. Like something is very gently shaking everything from side to side. Any idea what this could be? ive ruled out all kinds of stuff like trucks etc. could it be actual eartquake but soft?

submitted by /u/PythonNoob-pip
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Covid attacks cells in the olfactory epithelium to cause loss of taste and smell, can't these cells eventually regenerate from basal cells in the epithelium, given enough time?

Posted: 25 Nov 2021 07:58 PM PST

one would think that unless covid destroyed every single basal cell, these cells would eventually multiple and replace damaged cells in the olfactory epithelium, thus restoring taste and smell. depending on the damage, it could take a very long time, but in theory wouldn't these senses have to return?

submitted by /u/still_alive11
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What makes chickenpox worse to get as an adult compared to the mild affects of it in children?

Posted: 25 Nov 2021 10:43 AM PST

Why does the area mosquito bites gets swollen?

Posted: 25 Nov 2021 11:10 PM PST

Can electroless plating be "masked" to not deposit?

Posted: 25 Nov 2021 10:55 PM PST

In a copper electroless plating process using Formalin as the reducing agent, any part of the substrate treated with a borohydride salt solution gets plated in copper.

The whole substrate needs to be dipped in the borohydride salt, but some sections of the substrate do not need to be plated. Is there anything I can apply to the substrate (or mix into a resin) to mask sections from being plated?

My first thought is a very thin coat of oil, however I think that might come off and contaminate the plating and borohydride baths.

Thank you!

submitted by /u/Wyattwic
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Do things get cold faster in colder environments?

Posted: 25 Nov 2021 12:39 PM PST

Title basically. But for example if a cube was in a -70 F room and the same cube was in a -30 F room which one would reach -20 F first if they both started at same higher temperature.

submitted by /u/Kraken78
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Does bronze or copper release toxic fumes when exposures to fire?

Posted: 25 Nov 2021 09:56 PM PST

I'm working on a Christmas gift and want to be sure I don't harm anyone that uses it. It will be exposed to fire for short periods of time. It's a cocktail smoker.

submitted by /u/bradley2156
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