Several times a drone fires a Hellfire missile but the resulting explosion resembles a grenade explosion. In reality, a Hellfire explosion has a 'kill radius' of 50 feet (15 meters) and a 'wounding radius' of 65 feet (20 meters).
At around 17:52 in the movie the sniper who tries to shoot "Junior" with a Dragunov looks through the sight PSO-1 and incorrectly ranges the actor as being closer than 100m, which is completely wrong as the scope has a ranging etching on the left side. A person 200m away 1.7m tall should be as tall as the first rightmost etch, while in the movie the sniper is approx. 300m away. The target should not be that big, as the scope magnifies 4x only.
"EZ-CEB" is the registered number for the helicopter that takes them from turkey to Georgia. Well, that number is assigned to Turkmenistan, which is on the other side of the Red Sea.
The Dragunov the sniper aims at Junior is an obvious fake. There is no rivet in the magazine catch or even the lever that is used to release the magazine, the screws on the side are never on the milled receiver of a Dragunov, and the scope is mounted to the receiver cover which is a very unsteady mount compared to the proper side-rail mount normally used.
At 0:07:30 -"blood" splashes onto the camera lens.
At 0:32:04 -"blood" again splashes onto the camera lens.
Presenting the problem as GPS itself being how the enemy was locating the team is misleading. GPS is a one-way broadcast system - the satellites send a relatively weak, digital signal. Users have only receivers that themselves can't send GPS to intercept.
What the enemies likely did was find the signal of the transmitters they were wearing directly, OR they used the feed to other devices such as UAVs (Drones) and the command centers sent by satellite(s).
None of this would be easy where secure military radios were used - digital signals are encrypted, and can be sent over spread-spectrum where instead of one channel, a large range of frequencies are used to make finding the signal almost impossible without the decoding key and other data.
What the enemies likely did was find the signal of the transmitters they were wearing directly, OR they used the feed to other devices such as UAVs (Drones) and the command centers sent by satellite(s).
None of this would be easy where secure military radios were used - digital signals are encrypted, and can be sent over spread-spectrum where instead of one channel, a large range of frequencies are used to make finding the signal almost impossible without the decoding key and other data.