Compute the resistance of a 1 x 1 square copper bar 10 ft long. The resistivity of copper is 10.37(CM-ohm)/ft.how do u find this answer?
I'd listen to V Twin Doc, he has dyno'ed them and sure anything he says will work out for you. Thunderheaders, although kind of a neat cro magnon look are definitely ear splitters, to the point you probably will get pulled over and possibly ticketed, your neighbors will hate you (or at least your bikes, or in the VERY least your pipes), and just generally too obnoxious for anyone but the most professional ******jerk. I have also heard they are really crummy quality, weld, fit, finish all bargain basement. I can't get behind Supertrapps, sit there and change the baffles, then what does that do to your jetting, ahhh, not work it and look stupid besides. I think you are smart in wanting 2 into 1's though, I like that sound better and better performance. Get something rumbly, but have a little class, don't give in to the straight pipe noise.
In all your research did you check the state laws? Like in NY state, you are supposed to have the factory exhaust on your bike. Also, The federal gov't just came out with a new static test for sound that states may soon be adopting. Before spending your hard-earned money, You might want to wait and see, or else you'd have to out and buy another system to pass inspection
properly the copper welding(brazing) of steel is extensive-unfold so of path the joint could be made however the steel won't have been melted so not a real weld as maximum human beings be attentive to it.i think that's to be assumed that the compound bar can benefit or lose warmth purely on the loose ends.i don't think of i can flow futher without understanding the particular warmth of the two supplies(thank god for that; that's sums returned).
1 mil 0.001 in CM Circular Mils mils^2 This is the basis for the American Wire Gage. So 10.37(CM-ohm)/ft or 10.37(Ω-CM)/ft is the resistivity of copper 20°C. length 1 in * 1mil/0.001 in 1000 mils Area length^2 (1000 mils)^2 1,000,000 CM R ρ L/A 10.37(Ω-CM)/ft * 10ft/1,000,000 CM 103.7μΩ
10.37(CM-ohm)/ft. where did you get this? the units are incorrect and mixed metric and imperial! values I can find are: correct value is about 17.2 nΩm 0.0000000168 ohm.m taking the average of 17 nΩm, and switching to SI units: 1 x 1 1 in? 0.0006452 m? 10' 3.048 m resistance is proportional to resistivity and to length and inversely proportional to cross-sectional area. R 17 nΩm x 3.048 m / 0.0006452 m? 80300 nΩ 80.3 ?Ω
