• Vespair@lemmy.zipEnglish
    211·
    1 day ago

    Pfft. Making things hotter is easy. The fact that we can regularly make things colder and hold them at that colder temperature is what’s actually impressive in thermodynamics

    • thinkercharmercoderfarmer@slrpnk.netEnglish
      7·
      1 day ago

      Pfft the absolute human hubris to hold up these entropic sleight-of-hand tricks as impressive. Nature abhors a refrigerator. Heaters are the ultimate power in the universe.

      • AnarchistArtificer@slrpnk.netEnglish
        11·
        1 day ago

        Our entire existence is a temporary rebellion against entropy. In light of that, hubris seems inevitable. I reckon a little bit of it is useful for us

        • thinkercharmercoderfarmer@slrpnk.netEnglish
          4·
          24 hours ago

          You inspired me

          I do not fear the motion of my feet.
Though every step be toward the final bourn,
I see no path to orderly retreat.

The energy assigned in brief to me
No art preserves, no science can reform.
And so I boldly choose what is to be

The range and purpose of my tiny mete.
I will not, while I can, myself pre-mourn,
But rage, rage against the rising of the heat.
    • MonkeMischief@lemmy.todayEnglish
      2·
      1 day ago

      So does our Colombian red tail boa! :D

      EDIT: That’s just a little heat coil with a fan though in the cold months. Be very careful and research heavily before blasting IR light at reptiles!

  • Bluewing@lemmy.world
    English
    5·
    1 day ago

    Pfftt. Splitting wood is peak heat thermodynamics. And I can attest it keeps you warm down to -40F.

    • Thorry@feddit.orgEnglish
      733·
      2 days ago

      Nah this thing puts out light and probably vibrates as well, so not even 100%.

      • LibertyLizard@slrpnk.netEnglish
        47·
        2 days ago

        Well ultimately it all becomes heat. Maybe a tiny amount escapes a window or something. So we could say 99%.

        But heat pumps still reign supreme, at least until it gets super cold.

        • Thorry@feddit.orgEnglish
          152·
          2 days ago

          Well that’s just objectively wrong. Light is EM radiation, where heat is movement of atoms and molecules. Via incandescence objects can radiate away their heat (following black body radiation), however they are not the same thing.

          • BakerBagel@midwest.socialEnglish
            72·
            2 days ago

            What happens when photons emitted from the heater hit items in the room? That energy is imparted into the object, heating it up.

            • azertyfun@sh.itjust.worksEnglish
              11·
              2 days ago

              If we’re going to be pedantic, let’s do it correctly.

              Even with the blinds shut, a space heater will emit a surprisingly large amount of radio waves (mine actually disrupts USB devices with a small EMP when it turns on, and anyone with an RTL-SDR can tell you those 50 Hz harmonics are rough). Some of those radio waves will penetrate the walls/blinds and a tiny fraction might escape the atmosphere and head off into space. From there some will find their way to interstellar space and potentially drift “forever” (well, until the heat death of the universe or whichever theory you subscribe to; I think at that point saying “the photon never got converted into heat energy” is a good enough approximation).

              • HugeNerd@lemmy.caEnglish
                1·
                1 day ago

                tell you those 50 Hz harmonics are rough)

                Yes, nothing like a sine wave in a resistor to create those harmonics.

            • Thorry@feddit.orgEnglish
              3·
              2 days ago

              Sure, but like the other commenter said, everything turns into heat eventually

            • smoker@lemmy.zipEnglish
              13·
              1 day ago

              The heat isn’t transmitted via photons, it’s transmitted via convection. The air acts as a medium to transmit the heat energy outward. The heating element itself emits photons because it gets hot enough where the atoms within vibrate at a frequency which reaches the visible spectrum of light. That’s why cooler elements glow red (lower frequency) and hotter elements glow blue (higher frequency). Most of the heat energy is not contained in the photons, you need an output on the level of the sun to achieve that. With regards to the sun, all of the energy is carried by radiation anyway, because convective currents can’t travel in the vacuum of space.

              • Cethin@lemmy.zipEnglish
                2·
                1 day ago

                They didn’t say most of the heat was carried by photons. They said the photons turn into heat when they’re absorbed by atoms. That’s how radiative heat works, and yeah, most of the heat from a space heater isn’t radiative, but some is. All of the light you see turns into heat, so it isn’t lost. A tiny fraction will be lost through some means, but approximately 100% is turned into heat in the room at some point.

          • Blue_Morpho@lemmy.worldEnglish
            2·
            2 days ago

            heat is movement of atoms and molecules.

            Moving atoms don’t physically touch each other. They transfer their momentum with photons. Measuring the heat of a volume of gas is technically the measurement of the number of photon exchanges.

  • stupidcasey@lemmy.worldEnglish
    701·
    2 days ago

    Not true, it is true that it is heating at %100 efficiency that is to say %100 of the electrical energy is being transferred into heat (although technically some is being transferred into IR light not necessarily what you want) but your goal is probably not to simply create heat your goal is probably to heat the room or at least yourself and their is plenty of waste heat going off into space somewhere also you can achieve more than %100 heat transfer by compressing the external air’s heat we call these heat pumps and they can achieve +400%. The key word is efficiency.

    • Soup@lemmy.worldEnglish
      40·
      2 days ago

      It’s always wild to me that 100% heating efficiency is actually kinda not great. Also the fact that we can use the heat from air that is colder than what we want in order to generate more heat I mean that’s just witchcraft.

      • Devjavu@lemmy.dbzer0.comEnglish
        281·
        1 day ago

        Well, we’re not generating heat with heat pumps. We’re compressing atoms to make them angrier and pass other atoms by that bunch to even out the angriness. Could also substitute the word jiggy for angry.

    • finitebanjo@lemmy.worldEnglish
      6·
      1 day ago

      I always like to muse that in terms of electronics the heat is caused by resistance to current and that heat is usually considered inefficiency, and since no other load exist or work is done that means heating elements are about -100% efficient.

    • rmuk@feddit.ukEnglish
      102·
      2 days ago

      🤓 ACKSHUALLY

      It’s not possible for a heat pump - or anything - to even be 100% efficient, let alone 400%. Efficiency is measure of how much of the input energy gets converted to useful output energy, and since heat pumps don’t actually create heat the useful output is the compressor’s ability to pump refrigerant about. The Coefficient of Performance - the ratio between energy put in and useful work done - is 400% for a heat pump (give or take).

      • Canonical_Warlock@lemmy.dbzer0.comEnglish
        15·
        2 days ago

        heat pumps don’t actually create heat

        🤓 ACKSHUALLY

        Heat pumps create a fair bit of heat due to friction and electrical resistance in the compressor.

  • Hello_there@fedia.io
    66·
    2 days ago

    If you want to make heat, start up a gaming PC. At least the energy will go to doing something before it gets turned to heat.

    • HexadecimalSky@lemmy.worldEnglish
      35·
      2 days ago

      I legitimately had to buy a heater after I stopped regularly using my desktop because it was what was keeping my room warm.

      • NeatNit@discuss.tchncs.deEnglish
        36·
        2 days ago

        At that point you might as well run Folding@home on your PC just to act as a heater. It’s literally a win-win for you and for society.

        • HexadecimalSky@lemmy.worldEnglish
          11·
          2 days ago

          It’s always been on my mind to find something for my computer to idle on. Never heard of “Folding@home”. Thank you I’ll try it out.

          • NeatNit@discuss.tchncs.deEnglish
            171·
            2 days ago

            You’re welcome! Folding@home is the big one, and the Great Internet Mersenne Prime Search is also pretty popular (though IMHO a waste of resources for a relatively useless result). But I just looked into this topic myself after posting that comment, and turns out there’s a huge list of such “volunteer computing” projects: https://en.wikipedia.org/wiki/List_of_volunteer_computing_projects

            So while Folding@home is a great one and medical scientific research, you might pick something else from that list. Perhaps more than one!

            Now the confession: I’m a hypocrite. I never ran any of these volunteer computing projects on my own PCs. But that’s partly because I tend to shut them off every night, so a lot of the usable time for it isn’t really usable. The other part is basically that I never bothered to do it.

            But I think after this conversation reminded me of it, I might look into installing it on my PC!

            • ButteryMonkey@piefed.socialEnglish
              9·
              2 days ago

              I used to do it for SETI@home (search for extraterrestrial intelligence) and a few other projects. Haven’t in a while now but maybe I will again since my server pc never shuts off anyway.

              Back in the day I used boinc or some such to interface, it sort of looked like a torrent page, with progress bars on the tasks and stuff. It was kinda neat having an impact.

        • ChrysanthemumIndica@discuss.tchncs.deEnglish
          2·
          2 days ago

          I literally did that one winter when I lived in a small studio and I had a particularly fancy salvaged HP workstation. It was great!

          (Except I was missing an apparently important fan and most of my RAM went bad, 96G out of 128. Make sure your system cooling works correctly before trying this!)

      • motor_spirit@lemmy.worldEnglish
        1·
        2 days ago

        running FFXI and later WoW on my first rig (many moons ago) allowed me to keep my room nice and balmy all winter, to the point where I’d leave a window open for much of the day during snow-supporting temps and it’d still be toasty

    • jcs@lemmy.worldEnglish
      3·
      2 days ago

      I don’t have a source handy, but someone attempted to heat their apartment with computers and ended up spending something like >$1000 in utilities that month.

      • Hello_there@fedia.io
        5·
        2 days ago

        Resistive heat is expensive - that’s why heat pumps are so good.
        In practice, they would have gotten identical results with any electric resistive heater. Fans, oil filled, ceramic, etc. all largely doesn’t matter as it is Wh of electricity to Wh of heat.

      • kkj@lemmy.dbzer0.comEnglish
        5·
        2 days ago

        They must have overshot, then. Computers are 100% efficient space heaters that produce math as a byproduct.

        • copd@lemmy.worldEnglish
          2·
          2 days ago

          in the uk price per kWh for electricity is over five times cost of natural gas. We all use natural gas boilers to heat water which flows through radiators to warm our rooms. Anybody who heats their house with space heaters is just throwing money away whether it’s 100% efficient or not.

          You see more heatpumps these days but that’s another thing entirely

          • kkj@lemmy.dbzer0.comEnglish
            2·
            1 day ago

            Heat pumps cap out at about 250% 400% efficiency, so you’d still be spending more to run them than to burn natural gas at that ratio.

            • spidermanchild@sh.itjust.worksEnglish
              4·
              1 day ago

              Heat pumps easily exceed 2.5 COP. More like 4 in the UK climate. And gas isn’t 100% efficient either. But yeah it’s a wash or can be more expensive to heat with heat pumps where electricity is really expensive. It helps if we all conveniently ignore externalities like pollution and carbon too.

              • kkj@lemmy.dbzer0.comEnglish
                2·
                1 day ago

                Thanks for the correction, edited. How is gas not 100% efficient, though?

                But yeah, heat pumps are definitely more environmentally friendly (unless you’re habitually letting the refrigerant out, o guess). The real argument is whether the extra energy is worth it for protein folding (I’d say generally no, but if you don’t have a heat pump, might as well).

  • Fingolfin@lemmynsfw.comEnglish
    21·
    2 days ago

    Well, heat pumps are significantly more efficient than traditional heaters because they move heat rather than generating it. A heat pump can deliver three to four times more heat energy than the electrical energy it consumes, making them 300-400% efficient.

    • xthexder@l.sw0.comEnglish
      3·
      2 days ago

      Ground-source heat pumps seem like they could be the new hotness. You don’t have to dig very deep before the ground is a constant temperature, so that can be used to increase the efficiency even further in extremely hot/cold weather.

      Tech Ingredients did a nice little DIY experiment with it.

  • Frezik@lemmy.blahaj.zoneEnglish
    24·
    2 days ago

    Most of the time, we consider heat output to be inefficient. It only works here because heat happens to be its purpose.

    You could say it’s 0% efficient.

  • Zerush@lemmy.mlEnglish
    4·
    2 days ago

    That is how the power supply of my Laptop look like, playing Cyberpunk 2077 on my laptop.

    • Nikls94@lemmy.worldEnglish
      3·
      1 day ago

      I was testing the AI image generating capabilities of a M1 MacBook Air 16GB.

      It shuts down at 113°C (235°Freedom)

      • Zerush@lemmy.mlEnglish
        1·
        1 day ago

        113ºC is hard on the limit, chips at 140ºC convert the PC in an Paperweight. Normally they desconnect the Device with >90-95º. Permit 113º is maybe related to an programmed obsolence policy from Apple.

        • ewenak@jlai.luEnglish
          1·
          1 day ago

          I don’t think that’s planned obsolescence. The limits on laptops are usually higher than the limit on desktop PCs.

          And I had a ~110°C threshold as well on a Dell laptop running Linux, so it’s not just 'a Apple thing.

          • Zerush@lemmy.mlEnglish
            1·
            23 hours ago

            It’s because an silicon chip, which with 140ºC begins to degrade, the reason why they use an thermic security which desconnect the device on critical temperatures, but even so 110º isdefinitively to much and also will degrade the chip if it ocurred repeated times.

  • FaceDeer@fedia.io
    8·
    2 days ago

    Make those heating coils out of superconductors and it’ll be even more efficient.