It looks to me like Plagenhoef assigned a speed of 102mph to the entire path of his theoretical serve. I assigned a final speed at court contact of 90mph for a 120mph serve and assumed deceleration was constant to arrive at an average speed of 105mph. But I broke the problem down to address the fact that there are two tasks inherent in getting the serve in the box. First, it has to get over the net and it is going faster that first 39plus feet as it drops to its window of acceptance. Second, it has to land in front of the service line. For the first part we are worried about not dropping too low in the net, but for the second part we are worried about staying too high and landing beyond the service line.

In fact, because of wind resistance and drag increasing with the square of the velocity, the ball probably slows down quicker as it approaches the net than it does past the net when it is going slower. Therefore, 102mph may be the truer number.

don

If 7.5 degrees got me about 60 inches of drop, then that is about 8 inches per degree. The very top of the net would be almost 8 degrees down. The only way you could go up to 9 or 10 degrees would be if your contact point was higher or the speed of your serve was much higher. Remember a little faster serve will have a disproportionately greater reduction in drop due to gravity because gravity is an accelerating force and if you speed the ball up 20%, the amount of time the ball drops may be reduced by 1/6th, but the amount the ball drops due to gravity in that time will be reduced by much more than 1/6th because the time you are taking off is the time when the ball is dropping the fastest in that part of its journey. Still it seems to me spin and wind resistance will only make the ball drop faster and to get to those 9 or 10 degree numbers (for a fast ball), the contact point will have to be more like 10 feet instead of 9.5 feet. That would seem to be reasonable to me, until we start to consider the lean into the court. But that should balance out. We won't know until we actually do the cranking. Anybody else want to try?

don

I do NOT understand a sentence
"Of course, I need to redo the calculations for a ball that starts out on a course with a slope of 2 degrees less than that. "

Clearly, these are great illustrations and much nicer than the clumsy attempts I have posted in earlier posts. But they are just that, illustrations. To make a quantitative comparison, we would need the point tracker illustration for Soderling on a 130 mph serve and the same shot from someone like Krajicek who reaches at least the full 4 plus feet into the court. Then you would need to overlay those two images and you could see the advantage/disadvantage of the forward toss. I think PointTracker might even have the actual data potential in their statistics to pull out net clearance, etc. Perhaps we will get that on our digital feeds 5 or 10 years from now. There is already quite a bit on the ATP livestreaming TennisTV for live matches.

But I don't see anything in these illustrations that allows us to make a quantitative comparison of the advantage/disadvantage of

1. jumping up to hit the serve
2. tossing forward further into the court (and the reduction is reaction time, especially usable reaction time [my "action time"])
3. standing in different positions to increase the "acceptance window" of Brody (and the relationship changing the reaction time has because the server is a little further away from the receiver
4. (and I haven't seen anyone address this)while clearly, Sampras's serve was distinctive by the tremendous spin he had on his serve, how much does the spin of the ball actually slow the ball down by increasing the drag, even as it puts more balls in the court by bringing them down quicker. (Golf spends tens of millions of dollars on technology to improve dimple design to reduce spin on the drive while maintaining it on iron shots, but the bottom line is the longer hitting pros have a much lower rate of spin on their drives.)

I'm looking for what is the real benefit of getting forward on the toss. I don't think it should be emphasized until the player has the motion under control. But once that is achieved, how much benefit is really garnered by tossing the ball out into the court. I don't think you gain that much in raw MPHs, but taking away 4 feet of a "40 foot action distance" is a significant advantage for the server. How much faster is that ball when it hits the court and loses up to a third of its MPHs on the surface of the court than the ball (like Soderling's) which is hit from almost 4 feet further back. I think part of the reason for the low first serve percentage in today's game (relative to great servers of the past like Gonzales) is the blind emphasis on speed and the belief that vertical leg drive provides the difference between 115mph and 135mph serves. I think it probably provides 5 mph at most, but ends up cutting down average first serve percentages by 10 to 20% (and more among less accomplished players). I have no real data on that; just my own feelings and observations.

Invariably, the students I coach serve better when I first make them stand still and hit up at the ball in balance. Once they have MASTERED that skill, then I want them falling into the court on a somewhat forward toss, driving up with their legs and reaching up to the ball. But only after they have MASTERED that do I want them to start flinging themselves into the galaxy. Otherwise, they invariably end up hitting a little under the ball and having a great deal of difficulty getting the ball in the service box. But in participating in this thread, I am more open if not actually convinced, that the eventual and final goal for service development has to be the forward toss like Krajicek if not the actual Brian Battistone. Give me a Blake Griffin at 10 and let me train him for 5 or 6 years and if he has a complete game and Griffin's athleticsm...serving and volleying meeting the ball almost 8 or 9 feet into the court and cutting the receiver's "action distance" down from 40 feet to a little over 30 feet...not to mention the angles he could create...I think they would almost certainly change the rules to prohibit leaving the court and jumping forward to contact the serve. Come on, can you imagine someone with Blake Griffin's mobility and a 6'10" frame. That's Karlovic's reach, but with Safin's mobility. Long live the serve and volley!

don

Please see an end of post #92

Don,
I have one more question ( embarrassing again):
You have a formula:
Final Speed at Ground Contact=Speed at Net plus Increase

Questions:
1.Do you have a numerical value for a variable Increase?
2.Is it positive or negative ?

In this instance, I am referring only to the speed attributable to gravity in the downward direction. That is the only speed that is increasing. Gravity. Works on bullets. Works on tennis balls. Works on everything. Except Superman.

don