Didn’t even notice that bit lol. After reading lots of articles on the internet, one tends to skip all the BS in the intro. Can’t disagree with that paragraph more.
I still think the rest of the guide is very good though, it walked me through tons of complicated config I could not have figured out on my own. Turns out you have to configure the VM to have special VirtIO hardware and install the drivers for that hardware within the Windows VM, among other various tweaks.
Also, this setup 100% should be people’s last resort for running software on Linux. I would be using wine if I could, but the SolidWorks for Linux project has stalled in favor of the fusion360 for Linux project, so I had no choices other than installing Windows 11 on my old laptop or installing it in a VM.
Let’s assume Costco size hot dogs (1/4 lb, or 0.11 kg), with an internal temp increase from fridge temperatures (37 F, or 276 K) to 165 F (347 K). Let’s also assume the heat capacity of the hot dog is about 3000 J/kg*K. To heat up a single hot dog takes this much energy:
q=mc*deltaT => q=(0.11 kg)*(3000 J/kg*K)*(347K-276K)=23,430 J of energy.
The heat capacity here is 9GW. That is 9 gigajoules of energy per second, or 9 billion joules every second. Divide this by the number of joules to cook each hot dog gets us the number of hot dogs that could be cooked every second:
9,000,000,000/23,430=384,123 hot dogs/second
With this hot dogs per second figure, we can find how long this energy source would take to feed the entire US population a Costco hot dog.
342,000,000 people/384,123 hot dogs per sec=890 seconds
Converting this to minutes:
890/60=14.8 minutes
So, this source of energy could feed the entire population of the US a Costco hot dog in less than 15 minutes if properly harnessed.