I visit my father's house a few times each year. When he built the place, he had it wired for sound using in-wall systems, but (it seems) not by professionals. He blew out a receiver/amp, so I asked him to examine the wiring and he says it has all 8 speakers in parallel, patched together down in the basement!
(See this question for the way it should have been done)
I would like to use my multimeter to find the impedance of his setup next time I visit him. I don't need to be super-accurate so I would like to avoid sine-wave generators and speaker disassembly.
My plan is to introduce a resistor in series (maybe 200W and 1-4Ω) sufficient to make the system safe against accidental volume knob twists. Sound quality and max volume are not terribly important in his case.
If I simply hook my multimeter — a low-end Fluke — up to the (single) speaker wire coming from the wall, and then use it to test resistance, am I likely to get a reasonable estimate of the total speaker impedance seen by the amplifier?
Edit:
To be clear, the impedance of each of the individual in-wall speakers is presently unknown and would be tricky to obtain (they are actually mounted in the ceilings).
Outcome:
Following the advice from Dwayne Reid I purchased a resistor (20W, just to be sure). I found a free tone-generator program for my laptop, and played a couple different frequencies through the system. It took quite a bit of wattage and volume to get near 1V (my father went to find his earplugs), but I got close enough that I felt measurements were OK. Based on that, I obtained 8-9 Ohms of impedance in the system, so the installers apparently had done the job properly!
Best Answer
Place a resistor of known value in series with one speaker lead. Use a low-value resistor of sufficient wattage rating to withstand a few seconds of power. I would use a resistor somewhere between 1R0 - 3R3, 5 Watts.
Apply a tone if you have such available. 400 Hz - 1KHz is good. Increase the volume so that you can read a decent voltage across the speaker. 1 V RMS is good but less is okay if the volume is too loud.
Now simply measure the voltage across the series resistor and across the load (speakers bank).
The ratio of the these two voltages in conjunction with the known value of the series resistor will allow you to calculate the load resistance.