Sorry Guys, been under the car all day.
What was the range on that shot in the video? It sure looked slower than a main gun sabot round to me.
Don't know the exact range of this particular shot, but the weapon has an engagement range out to about 4 miles. The reason it looks slower than a sabot round is that it's 6 feet long. It's actually moving at over 4000-5000 f/s (depending on range)
Two things are for sure:
One, even if you saw the puff of smoke and realised what it was....it's already too late. You would barely have enough time to get the words "OH $#!%" out of your mouth.
Two, main gun rounds cannot lock on and track.
I forgot to mention that this bad boy can engage two targets simultaneously with two birds in the air at the same time.
(Thank you Texas Instruments
)
Try to keep in mind that the same could be said for the flash of the muzzle of a main gun. Secondarily the target in the clip was stationary. If you are fast enough you don't need to track.
My question is related to the range. It was obviously in line of sight and the rocket does not have near instantaneous acceleration like the cannon round has. This means the rocket would have to track on a moving target since while it might get faster as time goes on it will take time to get up there. It's a situation the TOW addresses as well.
I think you'd be amazed at how quickly this thing gets up to speed. it's doing about mach 2 within 50 ft of the launcher, and mach 3 comes pretty quickly after that. One of the biggest design challenges was getting the on-board electronics to survive the horrendous accelerations at launch (not quite the 80,000g you might see with a sabot round, but still very nasty). TOW, by comparison, has a speed of ~800 f/s, so at extended ranges you really have to hang your bellybutton out there waiting for that satisfying boom. The purpose of the weapon was to give scout units as well as heavy armor units some serious punch from outside the range of conventional MBT guns. At 3+ mile engagement ranges, the weapon still has higher lethality than the M1A1 sabot rd @ 100 yds. And unlike TOW, it's a kinetic energy killer, so it could care less about reactive armor. As far as moving targets, I've seen another video of one of these taking out a T-72 moving at top road speed perpendicular to the launcher about 1.5 miles out. Very ugly.
Neat video, lamest music ever.
Yeah the music blows, but remember the target audience was a bunch of Army generals who grew up on Lawrence Welk.
The Soviets had thermal imaging like we do. At most, a humvee may have been able to get one shot off.
At 4 miles they're not gonna hit
squat. But they can wave.
Hope I answered everybody's questions. Here's another few bits that might be of interest:1) The rocket doesn't steer with fins in the conventional way, but with what we call "attitude control motors", little one-shot rocket motors which exhaust out to the side and "shove" the weapon in the desired direction. Because of this, the rocket has to spin so that an attitude control motor will always be available to redirect the rocket in the direction you want to go in. If you look very closely at about 4 seconds into the video, you'll see one firing. It's been a while since I worked on it, but I think there are about 80 ACM's. Our PAC-3 missile (Patriot Advanced Capability) works the same way, and it's capable of pulling many
dozens of G's.
2) The Armor guys from Fort Knox and the MICOM (Army Missile Command) guys were together out at White Sands in the early days of the program to review the potential effectiveness of the system. A rocket sled was used to get an inert weapon (no rocket motor, but with the mass simulated and with the tungsten penetrator on-board) up to speed. A derelict Abrams was used as the target. As I understand it, the weapon punched thru the front turret armor and exited out the back of the bustle. The MICOM guys were all grins. The guys from Ft Knox were not so happy.
3) Anytime you run a sled test, you have to "walk the rail", making sure you don't have any debris on the track. But, because of the nature of this program, the rocket sled tests were routinely carried out at night to avoid Soviet reconnaissance satellites. This presented a special problem, because lots of desert "critters" would come out at night, and at roughly mach 4.3, they'd literally
never hear the sled coming. I've heard stories of the crew finding
half a coyote beside the track after a test.
