Please see "Biomechanical Principles of Tennis Technique" by Duane
Knudson ( if you can find it,say,in a library)

Another good book is "The Physics and Technology of Tennis" Brody, Cross and Lindsey. Lots of math on collisions.

How do we measure a speed of ball?

Don,
a book by Knudson has couple important points:

1.a speed of a ball measured ( say by a speed gun) is a down-the court component of a speed of a ball ONLY.


2.a component of a speed of a ball parallel to a shaft of a racket is NOT
measured at all by a speed gun.

3.a trajectory of a ball is NO more than 10 degrees below the horizontal.

Now let me add couple comments of mine:
1.please note a very detailed/important distinction between a speed of
a racket and a down-the court component of a speed of a ball-it is kind of obvious but ...

2.please see my post #60 above as well.

3.if future films of Nadal's serve expected it would be good to know
which parts of a serve/angles/trajectories should be analyzed.

4.let us denote by
M a mass of a racket
m is a mass of a ball
v is a speed of a racket at impact or just before an impact
vspeed is a down-the court component of speed of a ball just after impact
vspin is a component of a speed of a ball parallel to a shaft of a racket just after impact
We can produce an approximate equation

1/2*M v*v=0.75 * m *( 1/2 *vspeed * vspeed + 1/2*vspin * vspin)

0.75 is just an ad hoc fudge number.We may discuss it later.

Therefore
mvspeed can be estimated from the equation above
We see that larger mvspin slows down a ball MOREl
which is an expected result.

julian

julian mielniczuk uspta certified pro juliantennis@comcast.net
www.julianmielniczuk.usptapro.com Courtside Tennis Club,Bedford,MA

Cross

Does this book have anything pertinent/related about a current conversation
about a Nadal's serve?

Not in respect to grips.

Asking for favour

Could you,please,looked into a book by Plagenhoef?
Does he talks about a relation between grips and a speed of a racket?
I do NOT have a copy of a book.
Thank you.
Maybe we have another book by the same author:
"Patterns of Human Motion"

Please let me know

What is serving grip of Kuznetsova
in

Thanks Julian and Phil for the book recommendations, and to Julian for the additional explanation. I have an M.S. degree in Biomechanics, but I have not done any work related to tennis, and I do not currently work in the Biomechanics field. It sounds like these books will give me some good background in the biomechanics of tennis.

I have enjoyed this discussion.

Kutnetsova's grip looks like a continental to me, but it does not look as far towards the backhand as Nadal's grip in older pictures.

Bear with me

I am trying to simplify a presentation-bear with me for couple of hours,please

This is what Plagenhoef says concerning grip firmness on page 87:
He then has a graph showing the relationship between the ball speed, racket head velocity, and the striking mass (dependent on grip firmness).

He concludes that racket head speed developed is no more important than the firmness of the grip. He says a high racket speed makes it difficult to hold the racket firmly. He cites an example where Gonzalez hit one serve 2 mile per hour faster than another serve with a swing 11 mph slower.

Interesting comments, but I wonder if he took the spin factor into consideration. Maybe the slower serve by Gonzalez had a bit more spin...

On page 6, under "Service Grips" he says:

For Phil

Maybe you have another book by the same author:
"Patterns of Human Motion"

Firmness of the Grip

I have a bit of a problem with this point about firmness of the grip. It's very important to have absolute control of the racket head, but that doesn't mean you have to squeeze it tight. I put a lot of emphasis on getting the student to keep the racket snug in their hand, not necessarily tight. It is the weight and the momentum of the racket head that hits the ball. The weight and power of the body is used to generate power and speed in the racket head. If I can get the racket head moving in the right direction at the moment of impact (there is a vector that describes the momentum of the racket head in a physics analysis), I want to release that power at the moment of impact into the ball. If I hold on tight my necessarily circular motion will pull the racket off the path of the ball sooner than if I "release" at impact. I don't know if Plagenhof was actually measuring grip pressure or just assuming it. I expect it was probably the latter.

The analogy I like to draw for my students is the surgeon with a scalpel. I expect new surgeons hold the scalpel much tighter than an experienced, confident surgeon who lets the sharp edge of his scalpel do the work for him while he controls where it goes. Imagine trying to play a brisk piece on a piano or just type fast at your keyboard with tense wrists and forearms. Even if you can do it, you will be cramping up in no time.

don

For Don

A fax did NOT make it-please check a number or a fax machine

Plagenhoef

Phil,
my understanding is that the following laws do NOT hold
during a collision/contact of a racket with a ball:

1.a momentum of a racket is NOT preserved
i.e a momentum of a ball is NOT equal a momentum of a racket
2.a linear momentum is NOT preserved

3.a angular momentum is NOT preserved

4.an kinetic energy is NOT preserved
i.e a kinetic energy of a ball is NOT equal a kinetic energy of a racket



Please let me know whether Plagenhoef makes any comments on this subject

I assume he means a firm grip at impact and not during the service movement, which would be very negative.