You can wall a car also //content.invisioncic.com/y282845/emoticons/wink.gif.608e3ea05f1a9f98611af0861652f8fb.gif just gotta take the back seat out and use trunk as addon space for wall.I've told you 100 times already...I'm not in it to meter.
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A wall in a trunk? lol
Whhhhooooooo caaaaaaaaaaaaaaaresi been doing this **** long before you tards thought about it..
You and your asinine comments. //content.invisioncic.com/y282845/emoticons/waycrazy.gif.f4a380c3f94043939fd369defd9e6be2.gifi been doing this **** long before you tards thought about it..
He's always gotta be above everybody else/thinks he's better than any of us.You and your asinine comments. //content.invisioncic.com/y282845/emoticons/waycrazy.gif.f4a380c3f94043939fd369defd9e6be2.gif
It's hardware + the software. I bought mine for around 100 even IIRC. Try to do TS parameters for an unknown driver long-hand with DMM only and it's worth the 100 bucks really fast.Dang that one program is $130....
I'll just use some graph paper lol...
Ohm's law says P=IE frequency is not part of the equation.Higher frequencies have a higher current draw.
lets make a bet then. we will use someone neutral to hold the money and winner takes all.He's always gotta be above everybody else/thinks he's better than any of us.
That is true by that formula...but why is it that...say for instance you are running a "sufficient" electrical setup for a 2000 watt setup. Why is that you typically see your lights dim more or voltage drop more at higher frequencies? Does ohms law get thrown for a loop when you also must take into consideration impedance rise? I mean we all know heat is a primary cause for impedance rise, but the dynamics of the box itself had to play a roll too I assume...It's hardware + the software. I bought mine for around 100 even IIRC. Try to do TS parameters for an unknown driver long-hand with DMM only and it's worth the 100 bucks really fast.
Ohm's law says P=IE frequency is not part of the equation.
the lights dim from voltage sag.That is true by that formula...but why is it that...say for instance you are running a "sufficient" electrical setup for a 2000 watt setup. Why is that you typically see your lights dim more or voltage drop more at higher frequencies? Does ohms law get thrown for a loop when you also must take into consideration impedance rise? I mean we all know heat is a primary cause for impedance rise, but the dynamics of the box itself had to play a roll too I assume...
Ohms law is only applied to a consistent, constant?
V is (mostly) constant since that's how our amps work, but current changes with impedance. Your amp will need to draw more current and will make more power at low impedance points but where and how dramatic is completely dependent on your subs/box/tuning.That is true by that formula...but why is it that...say for instance you are running a "sufficient" electrical setup for a 2000 watt setup. Why is that you typically see your lights dim more or voltage drop more at higher frequencies? Does ohms law get thrown for a loop when you also must take into consideration impedance rise? I mean we all know heat is a primary cause for impedance rise, but the dynamics of the box itself had to play a roll too I assume...
Ohms law is only applied to a consistent, constant?
@ boomin_tahoeit was 300 miles and i was moving jackass. put your money up. bitchill be nice and bet 100. next time its 1000