Both Flesh and Not Read online

Page 2


  Interestingly, what is less obscured in TV coverage is Federer’s intelligence, since this intelligence often manifests as angle. Federer is able to see, or create, gaps and angles for winners that no one else can envision, and television’s perspective is perfect for viewing and reviewing these Federer Moments. What’s harder to appreciate on TV is that these spectacular-looking angles and winners are not coming from nowhere—they’re often set up several shots ahead, and depend as much on Federer’s manipulation of opponents’ positions as they do on the pace or placement of the coup de grâce. And understanding how and why Federer is able to move other world-class athletes around this way requires, in turn, a better technical understanding of the modern power-baseline game than TV—again—is set up to provide.

  Wimbledon is strange. Verily it is the game’s Mecca, the cathedral of tennis; but it would be easier to sustain the appropriate level of on-site veneration if the tournament weren’t so intent on reminding you over and over that it’s the cathedral of tennis. There’s a peculiar mix of stodgy self-satisfaction and relentless self-promotion and -branding. It’s a bit like the sort of authority figure whose office wall has every last plaque, diploma, and award he’s ever gotten, and every time you come into the office you’re forced to look at the wall and say something to indicate that you’re impressed. Wimbledon’s own walls, along nearly every significant corridor and passage, are lined with posters and signs featuring shots of past champions, lists of Wimbledon facts and trivia, historic lore, and so on. Some of this stuff is interesting; some is just odd. The Wimbledon Lawn Tennis Museum, for instance, has a collection of all the various kinds of rackets used here through the decades, and one of the many signs along the Level 2 passage of the Millennium Building5 promotes this exhibit with both photos and didactic text, a kind of History of the Racket. Here, sic, is the climactic end of this text:

  Today’s lightweight frames made of space-age materials like graphite, boron, titanium and ceramics, with larger heads—mid-size (90–95 square inches) and over-size (110 square inches)—have totally transformed the character of the game. Nowadays it is the powerful hitters who dominate with heavy topspin. Serve-and-volley players and those who rely on subtlety and touch have virtually disappeared.

  It seems odd, to say the least, that such a diagnosis continues to hang here so prominently in the fourth year of Federer’s reign over Wimbledon, since the Swiss has brought to men’s tennis degrees of touch and subtlety unseen since (at least) the days of McEnroe’s prime. But the sign’s really just a testament to the power of dogma. For almost two decades, the party line’s been that certain advances in racket technology, conditioning, and weight training have transformed pro tennis from a game of quickness and finesse into one of athleticism and brute power. And, as an etiology of today’s power-baseline game, this party line is broadly accurate. Today’s pros truly are measurably bigger, stronger, and better conditioned,6 and high-tech composite rackets really have increased their capacities for pace and spin. How, then, someone of Roger Federer’s consummate finesse has come to dominate the men’s tour is a source of wide and dogmatic confusion.

  There are three kinds of valid explanation for Federer’s ascendancy. One kind involves mystery and metaphysics and is, I think, closest to the real truth. The others are more technical and make for better journalism.

  The metaphysical explanation is that Roger Federer is one of those rare, preternatural athletes who appear to be exempt, at least in part, from certain physical laws. Good analogs here include Michael Jordan,7 who could not only jump inhumanly high but actually hang there a beat or two longer than gravity allows, and Muhammad Ali, who really could “float” across the canvas and land two or three jabs in the clock-time required for one. There are probably a half-dozen other examples since 1960. And Roger Federer is of this type—a type that one could call genius, or mutant, or avatar. He is never hurried or off-balance. The approaching ball hangs, for him, a split-second longer than it ought to. His movements are lithe rather than athletic. Like Ali, Jordan, Maradona, and Gretzky, he seems both less and more substantial than the men he faces. Particularly in the all-white that Wimbledon enjoys getting away with still requiring, he looks like what he may well (I think) be: a creature whose body is both flesh and, somehow, light.

  This thing about the ball cooperatively hanging there, slowing down, as if susceptible to the Swiss’s will—there’s real metaphysical truth here. And in the following anecdote. After a July 7 semifinal in which Federer destroyed Jonas Bjorkman—not just beat him, destroyed him—and just before a requisite post-match news conference in which Bjorkman, who’s friendly with Federer, says he was pleased to “have the best seat in the house” to watch the Swiss “play the nearest to perfection you can play tennis,” Federer and Bjorkman are evidently chatting and joking around, and Bjorkman asks him just how unnaturally big the ball was looking to him out there, and Federer confirms that it was “like a bowling ball or basketball.” He means it just as a bantery, modest way to make Bjorkman feel better, to confirm that he’s surprised by how unusually well he played today; but he’s also revealing something about what tennis is like for him. Imagine that you’re a person with preternaturally good reflexes and coordination and speed, and that you’re playing high-level tennis. Your experience, in play, will not be that you possess phenomenal reflexes and speed; rather, it will seem to you that the tennis ball is quite large and slow-moving, and that you always have plenty of time to hit it. That is, you won’t experience anything like the (empirically real) quickness and skill that the live audience, watching tennis balls move so fast they hiss and blur, will attribute to you.8

  Velocity’s just one part of it. Now we’re getting technical. Tennis is often called a game of inches, but the cliché is mostly referring to where a shot lands. In terms of a player’s hitting an incoming ball, tennis is actually more a game of micrometers: vanishingly tiny changes around the moment of impact will have large effects on how and where the ball travels. The same principle explains why even the smallest imprecision in aiming a rifle will still cause a miss if the target’s far enough away.

  By way of illustration, let’s slow things way down. Imagine that you, a tennis player, are standing just behind your deuce corner’s baseline. A ball is served to your forehand—you pivot (or rotate) so that your side is to the ball’s incoming path and start to take your racket back for the forehand return. Keep visualizing up to where you’re about halfway into the stroke’s forward motion; the incoming ball is now just off your front hip, maybe six inches from point of impact. Consider some of the variables involved here. On the vertical plane, angling your racket face just a couple degrees forward or back will create topspin or slice, respectively; keeping it perpendicular will produce a flat, spinless drive. Horizontally, adjusting the racket face ever so slightly to the left or right, and hitting the ball maybe a millisecond early or late, will result in a cross-court versus down-the-line return. Further slight changes in the curves of your groundstroke’s motion and follow-through will help determine how high your return passes over the net, which, together with the speed at which you’re swinging (along with certain characteristics of the spin you impart), will affect how deep or shallow in the opponent’s court your return lands, how high it bounces, etc. These are just the broadest distinctions, of course—like, there’s heavy topspin vs. light topspin, sharply cross-court vs. only slightly cross-court, etc. There are also the issues of how close you’re allowing the ball to get to your body, what grip you’re using, the extent to which your knees are bent and/or weight’s moving forward, and whether you’re able simultaneously to watch the ball and to see what your opponent’s doing after he serves. These all matter, too. Plus there’s the fact that you’re not putting a static object into motion here but rather reversing the flight and (to a varying extent) spin of a projectile coming toward you—coming, in the case of pro tennis, at speeds that make conscious thought impossible. Mario Ancic’s first serve, for insta
nce, often comes in around 130 m.p.h. Since it’s seventy-eight feet from Ancic’s baseline to yours, that means it takes 0.41 seconds for his serve to reach you.9 This is less than the time it takes to blink quickly, twice.

  The upshot is that pro tennis involves intervals of time too brief for deliberate action. Temporally, we’re more in the operative range of reflexes, purely physical reactions that bypass conscious thought. And yet an effective return of serve depends on a large set of decisions and physical adjustments that are a whole lot more involved and intentional than blinking, jumping when startled, etc.

  Successfully returning a hard-served tennis ball requires what’s sometimes called “the kinesthetic sense,” meaning the ability to control the body and its artificial extensions through complex and very quick systems of tasks. English has a whole cloud of terms for various parts of this ability: feel, touch, form, proprioception, coordination, hand-eye coordination, kinesthesia, grace, control, reflexes, and so on. For promising junior players, refining the kinesthetic sense is the main goal of the extreme daily practice regimens we often hear about.10 The training here is both muscular and neurological. Hitting thousands of strokes, day after day, develops the ability to do by “feel” what cannot be done by regular conscious thought. Repetitive practice like this often looks tedious or even cruel to an outsider, but the outsider can’t feel what’s going on inside the player—tiny adjustments, over and over, and a sense of each change’s effects that gets more and more acute even as it recedes from normal consciousness.11

  The time and discipline required for serious kinesthetic training are one reason why top pros are usually people who’ve devoted most of their waking lives to tennis, starting (at the very latest) in their early teens. It was, for example, at age thirteen that Roger Federer finally gave up soccer, and a recognizable childhood, and entered Switzerland’s national tennis training center in Ecublens. At sixteen, he dropped out of classroom studies and started serious international competition.

  It was only weeks after quitting school that Federer won Junior Wimbledon. Obviously, this is something that not every junior who devotes himself to tennis can do. Just as obviously, then, there is more than time and training involved—there is also sheer talent, and degrees of it. Extraordinary kinesthetic ability must be present (and measurable) in a kid just to make the years of practice and training worthwhile… but from there, over time, the cream starts to rise and separate. So one type of technical explanation for Federer’s dominion is that he’s just a bit more kinesthetically talented than the other male pros. Only a little bit, since everyone in the Top 100 is himself kinesthetically gifted—but, then, tennis is a game of inches.

  This answer is plausible but incomplete. It would probably not have been incomplete in 1980. In 2006, though, it’s fair to ask why this kind of talent still matters so much. Recall what is true about dogma and Wimbledon’s sign. Kinesthetic virtuoso or no, Roger Federer is now dominating the largest, strongest, fittest, best-trained and -coached field of male pros who’ve ever existed, with everyone using a kind of nuclear racket that’s said to have made the finer calibrations of kinesthetic sense irrelevant, like trying to whistle Mozart during a Metallica concert.

  According to reliable sources, honorary coin-tosser William Caines’s backstory is that one day, when he was two and a half, his mother found a lump in his tummy, and took him to the doctor, and the lump was diagnosed as a malignant liver tumor. At which point one cannot, of course, imagine… a tiny child undergoing chemo, serious chemo, his mother having to watch, carry him home, nurse him, then bring him back to that place for more chemo. How did she answer her child’s question—the big one, the obvious one? And who could answer hers? What could any priest or pastor say that wouldn’t be grotesque?

  It’s 2-1 Nadal in the final’s second set, and he’s serving. Federer won the first set at love but then flagged a bit, as he sometimes does, and is quickly down a break. Now, on Nadal’s ad, there’s a sixteen-stroke point. Nadal is serving twenty m.p.h. faster than he did in Paris, and this one’s down the center. Federer floats a soft forehand high over the net, which he can get away with because Nadal never comes in behind his serve. The Spaniard now hits a characteristically heavy topspin forehand deep to Federer’s backhand; Federer comes back with an even heavier topspin backhand, almost a clay-court shot. It’s unexpected and backs Nadal up, slightly, and his response is a low hard short ball that lands just past the service line’s T on Federer’s forehand side. Against most other opponents, Federer could simply end the point on a ball like this, but one reason Nadal gives him trouble is that he’s faster than the others, can get to stuff they can’t; and so Federer here just hits a flat, medium-hard cross-court forehand, going not for a winner but for a low, shallowly angled ball that forces Nadal up and out to the deuce side, his backhand. Nadal, on the run, backhands it hard down the line to Federer’s backhand; Federer slices it right back down the same line, slow and floaty with backspin, making Nadal return to the same spot. Nadal slices the ball right back—three shots now all down the same line—and Federer slices the ball to the same spot yet again, this one even slower and floatier, and Nadal gets planted and hits a big two-hander down the same line—it’s like Nadal’s camped out now on his deuce side; he’s no longer moving all the way back to the baseline’s center between shots; Federer’s hypnotized him a little. Federer now hits a very hard, deep topspin backhand, the kind that hisses, to a point just slightly on the ad side of Nadal’s baseline, which Nadal gets to and forehands cross-court; and Federer responds with an even harder, heavier cross-court backhand, baseline-deep and moving so fast that Nadal has to hit the forehand off his back foot and then scramble to get to center as the shot lands maybe two feet short on Federer’s backhand side again. Roger Federer steps to this ball and now hits a totally different cross-court backhand, this one much shorter and sharper-angled, an angle no one would anticipate, and so heavy and blurred with topspin that it lands shallow and just inside the sideline and takes off hard after the bounce, and Nadal can’t move in to cut it off and can’t get to it laterally along the baseline, because of all the angle and topspin—end of point. It’s a spectacular winner, a Federer Moment; but, watching it live, you can see that it’s also a winner that Federer started setting up four or even five shots earlier. Everything after that first down-the-line slice was designed by the Swiss to maneuver Nadal and lull him and disrupt his rhythm and balance and open up that last, unimaginable angle—an angle that would have been impossible without extreme topspin.

  Extreme topspin is the hallmark of today’s power-baseline game. This is something that Wimbledon’s sign gets right.12 Why topspin is so key, though, is not commonly understood. What’s commonly understood is that high-tech composite rackets impart much more pace to the ball, rather like aluminum baseball bats as opposed to good old lumber. But that dogma is false. The truth is that, at the same tensile strength, carbon-based composites are lighter than wood, and this allows modern rackets to be a couple ounces lighter and at least an inch wider across the face than the vintage Kramer and Maxply. It’s the width of the face that’s vital. A wider face means there’s more total string area, which means the sweet spot’s bigger. With a composite racket, you don’t have to meet the ball in the precise geometric center of the strings in order to generate good pace. Nor must you be spot-on to generate topspin, a spin that (recall) requires a tilted face and upwardly curved stroke, brushing over the ball rather than hitting flat through it—this was quite hard to do with wood rackets, because of their smaller face and niggardly sweet spot. Composites’ lighter, wider heads and more generous centers let players swing faster and put way more topspin on the ball… and, in turn, the more topspin you put on the ball, the harder you can hit it, because there’s more margin for error. Topspin causes the ball to pass high over the net, describe a sharp arc, and come down fast into the opponent’s court (instead of maybe soaring out).

  So the basic formula here is that composite
rackets enable topspin, which in turn enables groundstrokes vastly faster and harder than twenty years ago—it’s common now to see male pros pulled up off the ground and halfway around in the air by the force of their strokes, which in the old days was something one saw only in Jimmy Connors.

  Connors was not, by the way, the father of the power-baseline game. He whaled mightily from the baseline, true, but his groundstrokes were flat and spinless and had to pass very low over the net. Nor was Björn Borg a true power-baseliner. Both Borg and Connors played specialized versions of the classic baseline game, which had evolved as a counterforce to the even more classic serve-and-volley game, which was itself the dominant form of men’s power tennis for decades, and of which John McEnroe was the greatest modern exponent. You probably know all this, and may also know that McEnroe toppled Borg and then more or less ruled the men’s game until the appearance, around the early mid-1980s, of (a) modern composite rackets13 and (b) Ivan Lendl, who played with an early form of composite and was the true progenitor of power-baseline tennis.14

  Ivan Lendl was the first top pro whose strokes and tactics appeared to be designed around the special capacities of the composite racket. His goal was to win points from the baseline, via either passing shots or outright winners. His weapon was his groundstrokes, especially his forehand, which he could hit with overwhelming pace because of the amount of topspin he put on the ball. The blend of pace and topspin also allowed Lendl to do something that proved crucial to the advent of the power-baseline game. He could pull off radical, extraordinary angles on hard-hit groundstrokes, mainly because of the speed with which heavy topspin makes the ball dip and land without going wide. In retrospect, this changed the whole physics of aggressive tennis. For decades, it had been angle that made the serve-and-volley game so lethal. The closer one is to the net, the more of the opponent’s court is open—the classic advantage of volleying was that you could hit angles that would go way wide if attempted from the baseline or midcourt. But topspin on a groundstroke, if it’s really extreme, can bring the ball down fast and shallow enough to exploit many of these same angles. Especially if the groundstroke you’re hitting is off a somewhat short ball—the shorter the ball, the more angles are possible. Pace, topspin, and aggressive baseline angles: and lo, it’s the power-baseline game.