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7 ohms (5+1+1)
Doubling the voltage in a circuit does not double the propagation speed in that circuit. It only doubles the available energy (volts is joules per coulomb), which doubles the current (amperes is coulombs per second), and quadruples the power (watts is joules per second).
black black brown black is just some fool's uneducated guess. The correct answer is: Brown, black, gold which translates to 1,0 x point 1 or 10/1 = 1ohm Look at http://www.hobby-hour.com/electronics/1ohm-8ohm2-resistors.php for more.
1/1 = 1ohm MR. volta [italian] Determined that it would take 1 volt to pass 1 amp trough a 1 ohm resistor MR ampere [ french] Ditermined that it would take 1 ohm and 1 volt to pass one ampere MR ohms [english] determinaed that for 1 volt and one ampere the resistance must be 1 ohm. mr watts determined that the product of volts x ampere will equal one watt [power]
1) a bridge based on the principle of Wheat stone's bridge that is used to compare two nearly equal resistances and to determine values of low resistances and the specific resistance of a wire. It differs from a meter bridge because additional resistances of similar magnitudes are included at either end of the meter wire.
7 ohms (5+1+1)
Doubling the voltage in a circuit does not double the propagation speed in that circuit. It only doubles the available energy (volts is joules per coulomb), which doubles the current (amperes is coulombs per second), and quadruples the power (watts is joules per second).
You can check glow plugs with an ohm meter. should be <1ohm
black black brown black is just some fool's uneducated guess. The correct answer is: Brown, black, gold which translates to 1,0 x point 1 or 10/1 = 1ohm Look at http://www.hobby-hour.com/electronics/1ohm-8ohm2-resistors.php for more.
Marikas triple hijos de puta
by the ohms law v hav v=ir i=5amps r=1ohm so v=5*1=5v
If you're sure that every resistor is exactly 10 ohms, and you need exactly13.75 ohms, then you can do it this way:-- Connect four resistors in parallel. Effective resistance of the combination = 2.5 ohms.-- Connect eight resistors in parallel. Effective resistance of the combination = 1.25 ohms.-- Connect in series: the 4-resistor unit, the 8-resistor unit, and a single 10-ohm resistor.Effective resistance of the combination = (2.5 + 1.25 + 10) = 13.75 ohms.In the real world, however, the combination of (2.5 + 10) = 12.5 would be closeenough to work. And actually, a single 10-ohm resistor might be close enough.Or you could just connect a single 10-ohm resistor to the ohm-meter, take afingernail file, file a small notch in the side of the resistor while watching themeter, stop filing when the resistance arrives at 13.4 ohms, see what it is whenit cools from all the filing and settles down, then make small additional scrapesuntil you have your 13.75 ohms. This might be just as fast as the 23 solder-joints required for the procedure described above, and you save 12 resistors !So what could be bad ! ?
1/1 = 1ohm MR. volta [italian] Determined that it would take 1 volt to pass 1 amp trough a 1 ohm resistor MR ampere [ french] Ditermined that it would take 1 ohm and 1 volt to pass one ampere MR ohms [english] determinaed that for 1 volt and one ampere the resistance must be 1 ohm. mr watts determined that the product of volts x ampere will equal one watt [power]
1) a bridge based on the principle of Wheat stone's bridge that is used to compare two nearly equal resistances and to determine values of low resistances and the specific resistance of a wire. It differs from a meter bridge because additional resistances of similar magnitudes are included at either end of the meter wire.
That will depend on the amplifier size & abilities. Look on the amp for it's specifications(or research them online). If it is rated as 1ohm stable, I'd suggest running the subs in parallel to achieve a 1ohm load. If it's not, then run them in series, this will present the amp with a 4ohm load. Just remember that excessive distortion will kill a speaker in fairly short order. To avoid this, the amp must be able to deliver as much or more power than the speakers are rated for. Example: if you're running them in parallel and the subs are rated at 100W RMS each, be sure your amp is capable of delivering at least 200W RMS at 1ohm. Ideally, you'll want more than 200W, my basic rule of thumb is the amp should be 40% more powerful than the speaker(s).
1 Ohm meter X (Mega Ohm/ 1000 Ohms) X (100 cm/meter) = 100/1000 Mega Ohm cm = 0.1 Mega Ohm cm method: dimensional analysis
Depends if it is dual 4Ohm or dual 2Ohm and what Impedance your Amp supports. *If you amp can handle 1Ohm Load and you have a dual 2Ohm sub you can run the sub in parallel to get a 1Ohm load (parallel meaning both + are connected with each and same with both -) *If your amp can handle 2Ohm load and you have a dual 4Ohm sub you can run the sub in parallel to get a 2Ohm load. *If your amp supports a 4Ohm load and you have a dual 2Ohm sub you can run the sub in series to get a 4Ohm load. (series meaning the - from one coil is to be connected with the + on the other coil) Do not mix up Impedance's make sure you find out what your Subs Impedance is and what you Amps Impedance is