If two particles are entangled, they will still be entangled even if we moved them on the opposite sides of the observable universe. Since they’re entangled, if we know one particle’s spin, we will automatically know the other particle has the opposite spin. The first particle is in a superposition in which it has both spins at the same time, the moment before measuring, so we can’t know or suppose until we actually measure, because the spin is random.

If we consider all that, we will arrive at the conclusion that the spin information travels much faster than the speed of light, between two entangled particles. How’s that possible??