Consider a photon to be in an entangled state such as $1/\sqrt{2}(|{H,H}\rangle+|{V,V}\rangle)$. The photon is in a superposition of horizontal and vertical polarization, and the way we analyze this is to say that the photon is in both states at the same time. Though this is odd, I can eventually reconcile it. However, the photon can also be in an entangled state such as $\sqrt{0.2}|H,H\rangle+\sqrt{0.8}|V,V\rangle$. Again, the photon is in both states at the same time, but do we say that it is somehow more in one state than the other? How can we think of this unevenly weighted superposition of states?