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MgR/Io=21
This formula is supposedly a common set up used on pro frames, given, M=total grams (kg) x g=gravitational acceleration 980.5 cm/s2 R=distance in cm from end of handle to balance point (where frame will start to tip over ie, off the edge of a table or a ruler balance point) Io: moment of inertia= swing wt + (20MR) - 100M
So if your frame is 360g, and swing weight is 355g, and balance point is 31.5cm, the formula would be .360 x 980.5 x 31.5/ 355 + (20 x .360 x 31.5) - 100 x .360 11118.87/355+226.8 -36 11118.87/545.8=20.37, which would be close to 21.
"Supposedly if the MgR/Io = 21, the swing of the racquet acts most naturally with the swing of the arm, giving the most effortless use of power and most consistent angle of racquet head at the point of contact." The purpose of which is to allow the hitter the most well balanced, effortless pendulum arm on the balance point based on the average arm length. (Io)
MgR/Io = 21 is easily obtainable by using lead tape.
The formula would be affected by a longer arm, and to adjust the balance pts, if the swing wt is too high, we add lead at 7" up from the butt, to neutralize rather than at the bottom, the moment of inertia, being too head heavy which would make us late on returns. Soderling has a metal rod in the handle to compensate his heavy lead under the entire capped grommet, rather than lead only at 7". His specs: 379g, 384g sw, bal pt. 33.75 or 21.05
"If you'd assume the arm and racquet to act as a double pendulum, than the racquet part will swing faster for a higher MgR/Io, but the arm part of the double pendulum may swing slower because of the weight difference between the original and the MgR/Io improved version."
Federer's frame showing power pads, and string a lings. He strings at 48.5/45.2 vs team/alu power rough (Both types of alu only come in 17g)
"There is some ideal 'angle' between your arm and the racquet at the point of impact (depending on how the player hits a ball). If the MgR/Io value is exactly right, then the racquet will automatically be at that angle at the point of impact. If MgR/Io is lower than ideal, it will be at that angle a little after the point of impact, thus you'd need to force it to come around quicker, probably using your wrist. If MgR/Io is higher than ideal, the racquet will be at the ideal angle before the point of impact, and pass it before the ball is hit. In that case you would need to slow it down in order to get it right.", or shank a lot of returns!
"The less you have to help your racquet to get to the ideal 'position', the easier it is to get it right, and that will (or should) increase your consistency, and make it feel 'effortless'."
"I'm not sure how two racquets of the same static weight and SW, but different balance (for different MgR/Io) would affect your stroke as a whole, speed-wise."
Fed's numbers: 357g total mass, 32.2 cm bal., 355g swing wt.= 20.68
Nadal's numbers for clay court play: 336g total mass, 33.5 cm bal., 355 swing wt.=20.19 old numbers
Nadal's new numbers for this hard court season: lower sw: 336g, 33 cm, 344 sw:=20.43
Soderlings numbers: 379g mass, 33.75 bal. pt., 384 sw=21.05
Djokovics numbers: 360g, 32 cm, 371 sw= 20.0 flex RA: only 51
So, even though they have radically different frames, and way different masses, the constant is within 1.0
Swing wt: manually without an rdc machine: http://twu.tennis-warehouse.com/lear...wingweight.php
1. Materials
* Two Pencils
* Heavy book or weight
* Meter/yard stick or tape measure
* Stop watch
* Table edge
* Racquet
* Weight and balance (if don't know, see bottom of page)
Measure distance to top string
2. Measure To Top String
* Measure distance from end of the handle to the bottom of the top string (or whatever string you hang from).
* The finer the measurement the better (mm or 1/32").
* Swingweight measurement is very sensitive to small changes. Even 1 millimeter will affect the results.
Hanging Racquet
3. Setup: Hang Racquet
* Hang the pencils over the table edge and place the book on top for support.
* Hang the racquet by the top string on the pencils.
* Evenly space the pencils on either side of the center.
* Do not let the pencils rub on any main strings.
Tapping Handle
4. Tap or Push Handle
* Tap or push handle to set racquet in motion.
* A very small push will do.
Swinging Forward
5. Swinging Racquet (1)
* Swing need only be 1-2 inches either side of center.
* Too large a swing will introduce error into the calculation.
* One swing equals one back-and-forth.
Swinging Backward
6. Swinging Racquet (2)
* Let racquet swing a couple of times to settle in.
* Find or place a mark on floor against which to count swings.
Swing Viewed from Above
7. Count and Time Swings
* Stand over racquet to observe swings.
* Start stop watch just when swing reaches your mark (where it reverses direction) — count=0.
* Count for each time the racquet edge stops at your viewing mark.
* Adjust your viewing position slightly as swing decreases to keep view mark at apex of the swing.
Stoppin the Stop Watch
8. Stop Time
* Stop the watch exactly on the 10th swing. Or let it swing 20 x and divide by 2.
* Time to one hundreths of a second.
* Write down the time.
* It is best to perform test 2-3 times and take the average.
* Be very precise: swingweight is very sensitive to the time.
Calculator Screen Shot
9. Enter Into Calculator
* Go back to the Customization calculator if you were in middle of customizing.
* Go to the Do-It-Yourself Swingweight calculator if you are simply measuring swingweight.
* Enter your measurements.
* Voila! There is your swingweight.
Quick and Easy Balance Measurement
View of Balancing Racquet
Procedure
* Tape a yard/meter stick to the top of a table.
* Place the "zero" end at the edge of the table.
* Move the racquet until the butt of the handle just comes off the table.
* Read the measurement at the handle butt.
* That is your balance point.
* NOTE: It is best to create a "T" along the edge of the table by placing something of equal height as the yardstick on either side of that yardstick. Otherwise you might not be able to balance the racquet accurately.
This formula is supposedly a common set up used on pro frames, given, M=total grams (kg) x g=gravitational acceleration 980.5 cm/s2 R=distance in cm from end of handle to balance point (where frame will start to tip over ie, off the edge of a table or a ruler balance point) Io: moment of inertia= swing wt + (20MR) - 100M
So if your frame is 360g, and swing weight is 355g, and balance point is 31.5cm, the formula would be .360 x 980.5 x 31.5/ 355 + (20 x .360 x 31.5) - 100 x .360 11118.87/355+226.8 -36 11118.87/545.8=20.37, which would be close to 21.
"Supposedly if the MgR/Io = 21, the swing of the racquet acts most naturally with the swing of the arm, giving the most effortless use of power and most consistent angle of racquet head at the point of contact." The purpose of which is to allow the hitter the most well balanced, effortless pendulum arm on the balance point based on the average arm length. (Io)
MgR/Io = 21 is easily obtainable by using lead tape.
The formula would be affected by a longer arm, and to adjust the balance pts, if the swing wt is too high, we add lead at 7" up from the butt, to neutralize rather than at the bottom, the moment of inertia, being too head heavy which would make us late on returns. Soderling has a metal rod in the handle to compensate his heavy lead under the entire capped grommet, rather than lead only at 7". His specs: 379g, 384g sw, bal pt. 33.75 or 21.05
"If you'd assume the arm and racquet to act as a double pendulum, than the racquet part will swing faster for a higher MgR/Io, but the arm part of the double pendulum may swing slower because of the weight difference between the original and the MgR/Io improved version."
Federer's frame showing power pads, and string a lings. He strings at 48.5/45.2 vs team/alu power rough (Both types of alu only come in 17g)"There is some ideal 'angle' between your arm and the racquet at the point of impact (depending on how the player hits a ball). If the MgR/Io value is exactly right, then the racquet will automatically be at that angle at the point of impact. If MgR/Io is lower than ideal, it will be at that angle a little after the point of impact, thus you'd need to force it to come around quicker, probably using your wrist. If MgR/Io is higher than ideal, the racquet will be at the ideal angle before the point of impact, and pass it before the ball is hit. In that case you would need to slow it down in order to get it right.", or shank a lot of returns!
"The less you have to help your racquet to get to the ideal 'position', the easier it is to get it right, and that will (or should) increase your consistency, and make it feel 'effortless'."
"I'm not sure how two racquets of the same static weight and SW, but different balance (for different MgR/Io) would affect your stroke as a whole, speed-wise."
Fed's numbers: 357g total mass, 32.2 cm bal., 355g swing wt.= 20.68
Nadal's numbers for clay court play: 336g total mass, 33.5 cm bal., 355 swing wt.=20.19 old numbers
Nadal's new numbers for this hard court season: lower sw: 336g, 33 cm, 344 sw:=20.43
Soderlings numbers: 379g mass, 33.75 bal. pt., 384 sw=21.05
Djokovics numbers: 360g, 32 cm, 371 sw= 20.0 flex RA: only 51
So, even though they have radically different frames, and way different masses, the constant is within 1.0
Swing wt: manually without an rdc machine: http://twu.tennis-warehouse.com/lear...wingweight.php
1. Materials
* Two Pencils
* Heavy book or weight
* Meter/yard stick or tape measure
* Stop watch
* Table edge
* Racquet
* Weight and balance (if don't know, see bottom of page)
Measure distance to top string
2. Measure To Top String
* Measure distance from end of the handle to the bottom of the top string (or whatever string you hang from).
* The finer the measurement the better (mm or 1/32").
* Swingweight measurement is very sensitive to small changes. Even 1 millimeter will affect the results.
Hanging Racquet
3. Setup: Hang Racquet
* Hang the pencils over the table edge and place the book on top for support.
* Hang the racquet by the top string on the pencils.
* Evenly space the pencils on either side of the center.
* Do not let the pencils rub on any main strings.
Tapping Handle
4. Tap or Push Handle
* Tap or push handle to set racquet in motion.
* A very small push will do.
Swinging Forward
5. Swinging Racquet (1)
* Swing need only be 1-2 inches either side of center.
* Too large a swing will introduce error into the calculation.
* One swing equals one back-and-forth.
Swinging Backward
6. Swinging Racquet (2)
* Let racquet swing a couple of times to settle in.
* Find or place a mark on floor against which to count swings.
Swing Viewed from Above
7. Count and Time Swings
* Stand over racquet to observe swings.
* Start stop watch just when swing reaches your mark (where it reverses direction) — count=0.
* Count for each time the racquet edge stops at your viewing mark.
* Adjust your viewing position slightly as swing decreases to keep view mark at apex of the swing.
Stoppin the Stop Watch
8. Stop Time
* Stop the watch exactly on the 10th swing. Or let it swing 20 x and divide by 2.
* Time to one hundreths of a second.
* Write down the time.
* It is best to perform test 2-3 times and take the average.
* Be very precise: swingweight is very sensitive to the time.
Calculator Screen Shot
9. Enter Into Calculator
* Go back to the Customization calculator if you were in middle of customizing.
* Go to the Do-It-Yourself Swingweight calculator if you are simply measuring swingweight.
* Enter your measurements.
* Voila! There is your swingweight.
Quick and Easy Balance Measurement
View of Balancing Racquet
Procedure
* Tape a yard/meter stick to the top of a table.
* Place the "zero" end at the edge of the table.
* Move the racquet until the butt of the handle just comes off the table.
* Read the measurement at the handle butt.
* That is your balance point.
* NOTE: It is best to create a "T" along the edge of the table by placing something of equal height as the yardstick on either side of that yardstick. Otherwise you might not be able to balance the racquet accurately.
joker lead tape
soderling pallet
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