huh?
LEDs have a characteristic forward voltage drop, different for different types of LED but mostly in the 2v to 3.5v range. The packaging should tell you a few things - the LED color and maybe a light wavelength (the exact color), the forward voltage, operating current, and intensity. You want the current you feed the LED to be close to the specified operating current, a LED will burn out if you feed it too much current.
I don't understand the 24V LED, it must have a correct resistor to work at 24V.
Anyway, if you have a 14VDC power source (ie a motorcycle) and a 3V forward drop LED that runs at 30mA (0.03A), figuring the required resistor is pretty easy. First you subtract the forward voltage, 14-3=11V. Then you use Ohm's Law to calculate the resistor - R=E/I meaning resistance in ohms (R) = voltage in volts (V) divided by current in amps (I). R = 11 / 0.03 = 367 ohms.
You talk about 24 LEDs in series. The forward drop for a 3V led with 24 in series would be 72V: this is not going to work at all with a 14V power source. A 24 LED array for automotive use usually has several series sets connected together in parallel. You don't want to have the forward drop total very close to your power source voltage because that makes the current and brightness very dependent on voltage, and your voltage will swing a fair bit between 11 and 14+ volts. You need a few volts dropped in the resistor to stabilize the current over that much swing. Car arrays I've seen have 3 LEDs in series, so a 24 LED array would have 8 strings of 3 LEDs plus a resistor each, all paralleled. You can't use one current control resistor to run paralleled LEDs or strings of LEDs, the minute forward voltage drop differences between "identical" LEDs will mean the LEDs or strings of LEDs will be different brightness and the one with the lowest forward voltage drop will draw more current than expected and probably burn out. Each LED or series string needs its own dropping resistor.
What this means is that your 24 LED cluster has to have built-in resistors I think. So it's probably all set to work at 12V, 24V is a fairly unusual voltage for automotive lamps (but they are available).
And... as the LED forward drop voltage gets higher because you have several in series, your resistor gets a lower ohms value. Lets look at 3 3V LEDs in series: 3 * 3V = 9V. 14-9=5V. R=5/0.03 (still looking for 30mA current) = 33 ohms.
Think about your calculations: a 11.2 MOhm resistor with a 3V LED will give you a current of 0.7 microamps, you
might see the LED light if you sit in total darkness for an hour and then hold it right up to your eye with that tiny amount of current.
There are also some very simple circuits that use a cheap IC and a resistor or three to give a constant current to the LED regardless of supply voltage like this
http://www.ae5d.com/led-1.html
