In Normandy, the Americans and British used another type of antitank grenade, the Gammon grenade, a sort of bag filled with a plastic explosive. The grenade spreads itself out on the tank, covering any angles, before it explodes.

When the Gammon grenade explodes, it is supposed to detach “scabs” of steel from the inner surface of the armor to kill or wound the tank crew, ignite fuel lines and do other damage. It worked quite well on some of the World War I tanks the Germans used in the defense of Normandy. British and Americans have used artillery shells based on this principle. The British call theirs HESH (for High Explosive Squash Head) shells; the Americans use the less colorful HEP (High Explosive Plastic). HESH and HEP shells are seldom used on tanks now. They are more commonly shot at concrete fortifications.

The shaped charge, even more than the land mine, took the Blitz out of Blitzkrieg. Tankers have been able to use a number of defenses against it. Dan-gling additional armor plates outside the regular tank armor was an early try.

That, in effect, moved the charge back from the optimum distance so that full strength of the lethal jet from the exploding charge would not reach the regular armor. The plates, though, added a lot of extra weight and were quickly blown off or askew. Another addition is “reactive armor.” Slabs of explosive are hung on the tank. When a shaped charge explodes, so does the reactive armor. The reactive explosion blocks the effect of the shaped charge. That kind of armor defends against only the first shot. If a second shell hits the tank, there is no more reactive armor to react. And, it has been reported, on some lightly armored vehicles, the reactive explosion crushed the machine that was carrying it. A third, and apparently more effective, defense is laminated armor. This has a layer of ceramic material between layers of armor plate. The ceramic resists the burning effect of the jet of gas and molten metal caused by the shaped-charge explosion. It also dampens the shock waves caused by the explosion of an HEP shell and makes less able to break pieces off the interior of the armor.

But with all these defenses, shaped charges and still being used. And, regrettably, even relatively primitively shaped charge weapons are still putting holes in our tanks.

The rocket is one of the oldest of explosive weapons. The Chinese were using rockets before they — or anyone else — had guns. Rockets appeared in Europe around 1250 — again, before any Europeans had guns. Rockets may have been even more useful than guns for scaring horses (the chief effect of the earliest guns). They could also set fires. But rockets weren’t worth a hoot for knocking down stone walls, which was what interested most belligerents at that time, so they were soon dropped by most armies.

They came back into fashion in the early 19th century when an Englishman named William Congreve, impressed by rockets the Indians were using, invented an improvement. Congreve’s rockets were iron and carried a warhead of either gunpowder or incendiary material. He built several sizes, and all were stabilized by a long pole fastened to the body of the rocket. They were launched from a long ramp and used by both armies and navies. Ships using rockets had sails set back from the front of the ship, which was reserved for rocket launching, and some had chains, instead of rope, for rigging. The rocket’s back blast as always been a factor that must be reckoned with. During the Napoleonic Wars, British ships used rockets to burn down Copenhagen, and in the War of 1812, they used rockets in the unsuccessful bombardment of Fort McHenry.

Later, rockets were stabilized by either propellant gases pushing vanes at the rear of the rocket, which set it spinning, or by tail fins. Rockets were easier to move than artillery, but they were much less accurate, so they remained a secondary weapon until World War II. Changed conditions combined with improvements in rocket engines made rockets important weapons. Continued improvement after the war has led to rockets replacing guns in many situations.

This trend is particularly noticeable in navies. All the world’s huge 16-inch-gun battleships are now out of service, and their places have been taken by smaller ships armed principally with rockets and guided missiles. In the Iraq War, Coalition naval forces included four carrier battle groups, including four of the giant nuclear Nimitz class carriers, each displacing more than 93,000 tons, as well as slightly smaller carriers like the 81,990 Kitty Hawk class. There were scores of smaller ships: cruisers, destroyers and frigates. None carried many guns, and those were comparatively light antiaircraft or dual purpose guns, fast-firing lightweights for which shore bombardment was little more than an afterthought. Instead of heavy guns, the fleet carried hundreds of antiaircraft, anti-ship, and other surface-to-surface rockets in addition to cruise missiles.

For ground fighting, rockets turned out to the perfect antitank weapon for infantry. A rocket launcher has no recoil, because it’s just a hollow tube. There’s no internal pressure, as there is in a gun. All the internal pressure is in the rocket itself, so the launcher can be quite light. The bazookas, short-range point-and-shoot weapons, were fired from one man’s shoulder. There are still modernized forms of the bazooka in service, but there are also much longer ranged antitank rockets, which are guided by signals coming over a thin wire (the Brennan torpedo — see Chapter 26 — was a century ahead of its time). Other antitank rockets home in on reflected laser light. All of them are much lighter and more mobile than any kind of artillery.

World War II produced many situations that required a sudden, intensely heavy bombardment for a short period. For this, the rocket was ideal. Landing craft equipped with masses of rockets delivered more explosives on enemy beaches in a shorter time than any battleship could. Both the Germans, with their Nebelwerfer, and the Russians, with their Katyusha, laid down massive rocket bombardments on the Eastern Front. Rockets were especially important for air defense in World War II. Planes were flying higher and faster, only rockets could reach the necessary altitude, and only rockets could be programmed to home on the planes. After the war, rockets also gave the infantry a way to cope with low-flying enemy planes attempting to strafe them. Shoulder-fired rocket launchers as the United States’s Stinger now allows the dogface to fight back effectively. Unfortunately, they also give terrorists something to use against civilian airliners.

Aircraft, too, found rockets essential. German night fighters, confronted with Allied bombers flying in tight formation for mutual defense, simply launched their rockets at the formations as if the rockets were torpedoes and they were submarines attacking a convoy. In dogfights, fighter pilots on both sides used rockets extensively. A rocket packed a much heavier punch than a .50 caliber bullet or a 20 mm shell. Rockets could also be made to home in on enemy planes — to turn with them, dive with them, outrun them and blow them up.

For strafing ground targets, the rocket was also ideal. World War II ground fighting saw the obsolescence of dive bombers such as the German Stuka. Dive bombing was an extremely hazardous occupation if the enemy had any decent ground fire capability, because the bomber appeared to be almost motionless to those immediately below it. The only reason for dive bombing was that it was the most accurate way to drop an unguided bomb. Rockets had accuracy built in. The fighter-bomber (pure fighters were also becoming obsolete) would approach its target at high speed in a rather shallow dive and fire rockets when the target was in range. Rockets for antitank use, of course, had shaped-charge fillings.