Post by The Starmakerbut,
just using a camera that takes a picture of the past will solve that problem.
It's very simple, you got a murder scene, you take a picture...there's the murderer.
Now, I'll explain how it works..
Take this information
""One extreme example is the single-pixel camera, which relies on a beautifully simple principle. Typical cameras use lots of pixels (tiny sensor elements) to capture a scene that is likely illuminated by a single light source. You can also do things the other way around, capturing information from many light sources with a single pixel.
To do this you need a controlled light source, for example a simple data projector that illuminates the scene one spot at a time or with a series of different patterns. For each illumination spot or pattern, you then measure the amount of light reflected and add everything together to create the final image.
Clearly the disadvantage of taking a photo in this is way is that you have to send out lots of illumination spots or patterns in order to produce one image (which would take just one snapshot with a regular camera). But this form of imaging would allow you to create otherwise impossible cameras, for example that work at wavelengths of light beyond the visible spectrum, where good detectors cannot be made into cameras.
These cameras could be used to take photos through fog or thick falling snow.""
https://www.pcauthority.com.au/news/the-next-generation-of-smartphone-cameras-could-see-through-walls-481698
Now, instead of taking photos of fog or thick falling snow...
they just need to 'think' of other applications like 'taking photos of the past' (instead of thick falling snow)
Here's how you do that:
You take a picture of a crime scene..
you take a picture of the crime scene...floor.
(that is where gravity has pulled down the particles that need to be illuminated)
Using a a simple data projector that illuminates the crime scene particles on the floor..
one spot at a time..
For each illumination spot ,
you then measure the amount of light reflected and
add everything together to create the image of the crime scene as it happened.
Using a camera to take pictures of the past.
But, taking a picture of the Future is a whole different process...
'This would take advantage of the idea of quantum entanglement,
that two particles can be connected in a way that means whatever happens to one happens to the other,
even if they are a long distance apart...
(and I need to insert this part:)
Even if they are a long Time distance apart.
This requires for you to understand 'quantum Time'.
that two particles can be connected in a way that means whatever happens to one happens to the other,
even if they are 5 minutes apart...
The trick here is...you take a picture of the future 'particle' and it send back the information to the past
first connected particle and it processes it in the camera.
And you got a picture of the future!
Do I need to explain now the mechanics of how this works????