Views : 89,671
Genre: Gaming
Date of upload: Apr 24, 2024 ^^
Rating : 4.968 (34/4,162 LTDR)
RYD date created : 2024-05-18T01:58:37.595981Z
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Top Comments of this video!! :3
This game makes for an amazing experience if you want to roleplay the undercover journalist part. I kept a "field diary" as I was playing along, taking notes about the characters, weapons, recipes and such every time I put my character to sleep. Can't recommend enough doing that, it puts the "uncovering the zone" on a whole new level
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Dude. You have to stop showcasing games that I am going to find fascinating. I really can't afford it! I mean, you usually suggest reasonably priced offerings, but that's not the point. There just aren't enough hours in the week for me to even play what I already like.
Damn you, Splat.
And thank you.
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12:15 -- yes, no loot gets left behind! Thanks for the video!
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Electrical Engineer here. While Ohm's Law is R=V/i (Resistance = Voltage/current); it's easier to think of in terms of V=iR (mostly because it now resembles Newton's force equation; F=mA and much of what was learned in physics I can now be applied in physics II). However, if you know two of the values and need to know the third the equation can be solved for what ever you're trying to find. (Technically the V is voltage drop over a circuit component and probably wouldn't apply the way it is being used in the game. The game should really be using wattage, but that becomes a lot more complicated for the average player, because power (watts) is W=iV so to get that in terms of resistance we would need to solve Ohm's Law for either current (i) or voltage (V) and insert it into the equation. For example; if we know the wattage the radio tower needed to be at and we knew the voltage, but we needed the resistance we would solve Ohm's for current; i=V/R. We can then insert that into the power formula for W=(V^2)/R. Solve that for R; R=(V^2)/W, and solve to know what value of resistance we need. Again, that is a lot for the average game player to do.)
It is also helpful to know how resistance works when resisters are in series versus parallel. When resistors are in series you just need to add the resistance up; however, when they are in parallel you need to use the following formula: (1/Rtotal = 1/R1+1/R2+1/R3+...+1/RFinal)^-1. Raising the entire formula to -1 ensures you are not left with a value to 1/Rtotal.
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@ajobe15
3 weeks ago
"You're kind of like a passive observer here" he says as he loots the corpse of a guy he just shot.
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