1. Place a lightweight magnet above a superconductor, and the magnet will levitate, floating in space. The magnet produces an electric current in the superconductors, which generates its own magnetic field. The magnetic field repels against the original magnet and levitation occurs, the Messiner effect. However, a moving magnetic field is required to generate a current. Yet, as the material cools through the critical temperature at which it becomes a superconductor, effectively pushing the field out the material and taking the magnet with it. The magnet floats. Vedral suggest that this effect is a result of entangled electrons in the surface of the superconductors’ giving the photons of the electromagnetic field effective mass, leaving them struggling through the material as if it were quantum molasses.

2. If all natural forces were transmitted by massless mediators like photons, they should extend indefinitely - yet in practice, most forces have limited range and most of the mediating particles have mass.

3. Higgs bonson. A bonson is one of two types, a fermion and bonson. Bonsons can share quantum states and fermions can not. The Higgs bonson is a hypothetical particle that has not yet been seen. Higgs bonson has been used to explain where mass comes from, and why different particles have such varying mass.

4. Each natural force has a corresponding field which communicates by a boson. The electromagnet field carrier is the photon. Higgs reasoned that there was a field called the Higgs field that was responsible for mass. According to theory a particles mass comes from its interaction with a Higgs equilvalent of a photon, the Higgs bonson.

5. If the Higgs boson, the God particle, is truly entanglement powered,” then combined with entanglement limitless reach and remarkable consequences, it doesn’t seem excessive to call entanglement the God effect.

6. Quantum theory works, it delivers.

7. Quantum machines could provide fast database searches. In 1996, Lov Grover came up with a method that would drastically speed up search through a database described as "A Fast Quantum Mechanical Algorithm For Searching Database."

8. Lene Vestergaad Hau developed a photon store, where light can be held indefinitely until required. When an photon entangles with an atom in the dark state, it shares it quantum information with the atom. It is possible to effectively transfer the qubit information from a photon to the condensate and back out again.

9. In 2002, Phil Hemmer produced similar effects to Haus using solid yttrium crystals.

10. Decoherence is the natural tendency of qubit to interact with other quantum objects around them and to lose their unique state.

11. In 2002, Eugene Polizik managed to entangle two clouds of cesium, each containing a billion atoms. A significant step forward because entanglement was, until this experiment, largely seen as something that applied to at most a handful of quantum objects at a time.

12. David Deutsch developed the many universe theory. The many worlds theory explains the quantum world by suggesting that each time any event happens, either the universe close off new copies of itself reflecting every possible outcome of the event, or there is a complex multiverse incorporated all the possible states of the vast probability wave that is the universe, and the reality we experience flips between states every time an event occurs. David Deutsch envisages constructing a self-aware computer. The machine would be a quantum machine. The computer has to observe its own workings and comment on how it feels when it observes a particular quantum state. The computer would know the one outcome from measurement but all the multiverse outcomes. “The computer tries to observe the effect of different internal states of his brain in different universes interacting with one another.”