I think your math is off.
The lag between bullet arrival and arrival of the sound wave would be very different.
Flight time for the bullet would be about .72 seconds for 400 yards. Time for sound arrival would be about 1.04 seconds. That would be a lag time of .32 seconds. Pretty close to the “shooter2” stated lag of .374. Speed of sound is approximate. It could be calculated much closer based on the current pressure and temperate in Las Vegas at the time of the shooting.
So if you know the flight time, you can look at the ballistics chart and get a (rough) distance the round traveled. In other words, you know how far the recording source was from the rifle.
We *know* the flight times because we can look at the waveforms in an audio program and see how many msecs there are between impacts and reports - on each sample.
I admitted that my original calculations were "back of the napkin" type stuff. And you wanted me to check the math, so I went back and re-did it using ballistics calculations for each round along with accurate climate data. And it did change some of the values although it didn't wipe away the discrepancy.
The constants are:
Two samples, taken from a single recording device in a single location.
Temp - 60F
Rel H - 20%
Alt - 2030ft
Barometric Pressure - 29.98inHg
In those conditions, the speed of sound is about: 1130 fps; 345 meters/sec; 377 yards/sec
For each projectile given, the muzzle velocity is:
| TYPE | WEIGHT | VELOCITY |
| M193 5.56x45mm | 55gr | 3250 fps |
|
M855 5.56x45mm
|
62gr | 3025 fps |
| M80 7.62x51mm | 149gr | 2750 fps |
| M2 7.62x51mm | 152gr | 2740 fps |
| M852 7.62x51mm | 168gr | 2550 fps |
| M118 7.62x51mm | 173gr | 2640 fps |
| *M43 7.62x39mm | 162gr | 2350 fps |
Time lags between impact and report (flight time) for each is:
Sample 1 - 0.559s
Sample 2 - 0.374s
Using those figures, and the ballistcs data for each round, we can calculate that for each lag time (flight time) given, each of the rounds listed will travel the following distances:
| Projectile | Weight | Yards in .559 secs |
Yards in .374 secs |
| M193 5.56x45mm | 55 gr | 425 | 320 |
| M855 5.56x45mm | 62 gr | 425 | 320 |
| M80 7.62x51mm | 149 gr | 425 | 320 |
| M2 7.62x51mm | 152 gr | 425 | 320 |
| M852 7.62x51mm | 168 gr | 400 | 280 |
| M118 7.62x51mm | 173 gr | 420 | 290 |
| M43 7.62x39mm | 162 gr | 380 | 270 |
In the case of your round, with a flight time of .56 seconds the round will travel around 380 yards. With a flight time of .38 seconds, it will travel around 270 yards.
If you don't believe it, I don't care. You can do the calculations yourself.
My guess is that if they ever release the data on the rounds found at the scene, you will see pretty much nothing but 5.56 in either 55 or 62 grain. It doesn't matter which because both travel about the same distance in the given times.
And given those different flight times, there's no way there was only one shooter 425 or so yards away in the Mandalay Bay hotel. There was at least one other shooter about 100 yards closer.