Assume entanglement really exist.

then it's easy task too create a Quantum morse code device.

when tested with several hours of light speed distance.

 

now some hypothesis.

 

if a code is send but without conformation at the receiver, probability still exist.

the received information travels back at speed of light too the sender.

*entanglement exist*

 

but if the receiver send a massage right back to the sender, will Quantum entanglement cancel out?

no room for Probability.

 

so will entanglement cancel out in this scenario?

I don't see that it is easy to create a "quantum Morse code machine" using entangled pairs of particles. The problem is that one cannot predict what state you are going to "send". In fact, for a pair of particle there is precisely the right amount of noise to render it impossible to send information that way.

 

Unless I am missing the mechanics of your machine?

Entanglement is not an "assumption"...

 

And it can't transmit information easily. The measure at one detector tells what the other observes, but forcing a state at one detector will have no effect at the other.

 

The delay between both detections can be much smaller than light's propagation delay between the detectors (see Aspect's experience) but this does not tranport information, hence no information faster than light.