can you give us some sort of ratio of primary to secondary windings or how you wound yours as it would be of great help
thanks

As someone else stated, the two capacitors are in series, so the actual value is .0.005 uF or 5 nF. This value across the coil creastes a parallel tuned tank circuit which resonates at some frequency determined by the coil inductance (the .005 uF is fixed). This inductance is determined by the number of turns you put on the coil. I would suggest varying the frequency to see where the best results are, since the author gave no specifics about how big the coil was and how many turns it had. Also, the LED is a light emitting DIODE, and hence rectifies the AC like a diode. But it takes over 2 volts to light up a red LED, and even more for other colors. It might give better power transfer if more turns were added to the coil, and lower capacitance used. Also, 1N5817 schottky rectifier and filter capacitor could be used to rectify the coil's AC to a DC, and then a voltage boost circuit such as a Joule Thief could be used to extract even more power out of the coil. But the real problem is that the output of the function generator is very low. In the schematic of the function generator, they show that only one of the 'HC04 inverters is used, the other four are not used. I ordered one, and the first thing I'm going to do is cut the circuit board traces and add the other four inverters in parallel with the output. That will give a lot more output current. Another thought. The function generator could be replaced with a simple Joule Thief circuit. The big coil would be the main JT coil, and another coil would be added for the feedback coil. Once the JT 'transmitter' is working, the receiving coil would be tuned to the transmitter's frequency. JTs work around this frequency, in the 50 to 200 kHz range.

here two capacitor of value .01 uf are connected in parallel or series???????

can you tell me the number of turns in secondary coil and size of sec. coil.
also tell the exact no. of turns and size of primary coil
abhishek79shrivastava@gmail.com

how much energy is lost from the large coil to the smaller one?

Do the inductances have to match between the two coils have to be the same?

LED's arent meant for AC current. its a light emmitting diode, meaning it only allows electricity to pass through in one direction.

Hey guy, Just wondering how much electronics experience you really have. When you wire two capacitors in SERIES as your picture shows, their series capacitance does not increase, only their breakdown voltage, as the voltage is divided by the two devices in series. To add capacitances with capacitors, you wire them in parallel. PS. on the last page of the instructable, your full wave rectifier schematic shows your 4 diode bridge, your two wires for dc out, and two capacitors of different values in PARALLEL, which is redundant unless you're adding the capacitive values to find a resonant frequency. Seeing as how their purpose is to smooth the output of the rectifier, in general, the bigger the better. done and done.

Do you have a simple circuit diagram you can show us?