Starting with single coils for a second:
I asked about the device due to things like amp limits. Ohms (or anything else....watts, amps, volts) don't exist in a vacuum. So to talk about only one is ....good for a question but missing some nuances.
You mentioned wattage in your post. Wattage is "work done". It doesn't really exist in and of itself, but we use it all the time. Like for light bulbs. It's an instantaneous measurement...a result....of the other stuff. It's more-or-less defined as volts X amps. But the ohms are part of that too because they are all related. Basically if you know any two of (volts, amps, watts, ohms) you can compute the rest. No one of them acts alone in a functioning circuit. Change one and the others adjust. (more or less).
So....Let's talk VV and VW.
VV lets you adjust the heat level by changing the voltage. Without VV, you'd just have a fixed voltage...like 3.7 let's say...and then you'd select the ohms appropriate for that voltage to get the watts you want for your coil. Lower ohms = less resistance = more energy allowed to flow per second = more watts. That's for any given voltage....keep the voltage steady and adjust the ohms and you adjust the watts.
You can also keep the ohms steady, and adjust the voltage (with VV). That will also change the watts.
Voltage = "electrical pressure". (really potential difference between poles of the battery, but let's not quibble.) So you can see why adjusting it would be similar to adjusting the PSI in an air hose, or in a water pressure system....more "oomph" pushing through a resistance.
Watts basically = approximate heat for our purposes. (less device inefficiencies 'n such). Note: surface area not mentioned here.
Amps = electron flow per second.
Now as we've said with VV you can adjust the voltage to change the heat level for a coil. Coils aren't 100% spot on for their ohm rating...they have a margin of manufacturing error. Also, the ohms change over time as they are used. Moreover, different juices can require different wattages to find a "sweet spot". So VV was revolutionary for e-cigs. No more swapping around different ohm coils...just adjust it and tweak it.
Then comes.....VW. Variable Wattage. I wish they had named it "Auto Wattage" because that's more what it is. The APV reads the ohms of the coil and automatically selects the proper voltage to achieve the set wattage. Unscrew that coil, and screw on some other "topper" and it will auto adjust to that. You may find, however, you still wish to adjust it a bit due to different juices, but over all it works well
Now (almost done) we get to amps. The battery can only put out so many amps. When it hits its limit, it maxes out. When that happens, voltage suffers regardless of desired settings. Many devices will refuse to function if over amped as a protection. Different batteries and devices have different limits. You should research your device's limits. Because we finally get to:
Dual Coils. The bane of many newbie's existence and the foe of short forum posts. You basically need a crash course in electricity to describe what's going on with them and their use on various devices. There are several excellent posts above describing Ohm's law and I've reiterated a bit, but it gets fun with dual coils.
Dual coils are like running two atomizer coils side by side. As if you had two light bulbs side-by-side. It takes twice the watts. You use twice the electricity. And your electric bill will reflect that. The voltage (pressure) stays the same. The Net-Ohms are 1/2 of what each coil is (basically twice the paths for the electricity to follow = less resistance over all....like sucking a thick milk shake through two straws rather then one...easier due to less resistance/more path).
So...dual coils:
twice the watts.
The net-ohms are 1/2 each coil's ohms.
twice the amps.
voltage setting is around that for a single coil (2x net ohms). Maybe a bit lower. Don't want it too hot!
So a 1.5 ohm dual coil is really two 3.0 ohm coils and you would set your voltage to around 5 volts for a "full" vape. Although in practice many want it cooler with dual coils. You don't set it to 3.3 volts like you would for a 1.5 ohm single coil...because it's two 3.0 ohm coils. Make sense?
Also, your device has to be able to put out twice the watts and amps because it's powering two coils at the same time. So you need 15 watts to run a dual coil at 7.5 watts per coil.
You need to know the amp limit of your device and make sure you set the voltage accordingly. You may or may not like the results if you're amp limited. Some devices may refuse to function in this case (the smart ones) unless you turn the voltage down.
Sorry for the long post. Much is redundant and explained well by others above, but this is a train-of-thought kind of thing too. It's hard to discuss dual coils without all the other stuff.
