336 Are the Androids Dreaming Yet? where the choice of detector orientation was made by a random number generator after the photons had left the emitter. This shows the photons really can’t know what they will do before they start their journey. Another loophole is the loss of some photons. We don’t measure all the photons in an optical experiment because some are absorbed by the apparatus. It has been suggested all the ‘lost’ photons make up the error in the experiment. This is not very likely, it’s akin to assuming all the voters who did not vote in an election would have voted Democrat. To avoid this criticism, an experiment has been performed with magnetized particles that don't get lost. The Bell result holds true.The loopholes are diminishing and it seems likely Bell will win out in the end. Although the coordination information appears instantaneous, John Bell gave us an elegant explanation as to why this does not allow us to use the effect to transfer information faster than the speed of light. Imagine we are sitting at opposite ends of a room. We both toss coins and each of us write down our results; heads, tails, heads, heads and so on. I then acquire a magical power that causes your coin to make an extra flip just before you catch it, so it always gives the opposite result to mine. Although I am now controlling your coin, you cannot tell, as the result looks as random as before. The difference is simply that at first the coin orientation was random in its own right and then the opposite of my random result. It is only when I walk over and compare our results we can see they are matched in this strange way. There is no way to transmit information using this effect. Only after the experiment is finished can we exchange the necessary information to see the coordination that existed, and that comparison required me to transfer information. The fastest way to do that is at the speed of light. Despite saying it is impossible, let us do a thought experiment a