Movement Analysis: Tennis Forehand Swing Arianna Stratakis, OTS. Action Steps. Preparation. Purpose. Characteristics. Contact. Muscles. Back Swing. To hit the ball to the opposing side of the court with power to challenge the opponent. As a popular sport,... Muscles. Forehand swing requires a ...
Description of Movement. Goal: Execute proper setup, rotation, and follow through in order to hit the tennis ball using the forehand wing. Muscles: Pectoralis, Deltoids, Rhomboid, Trapezius, Biceps Brachii, Abdominals, Obliques, Gluteus Maximus and Medius, Quadriceps, and Hamstrings.
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results showed that the truth of the movement of beginner tennis players to do forehand groundstroke is only 65.9% consisting of 67.7% on back swing, 70.7% on forward swing and 48.7 on the follow through. In the placement of the forehand groundstroke 23.8% of the
Roger Federer Forehand Analysis. The Roger Federer forehand – a thing of beauty, the most natural looking shot in the game of tennis but also one of the most devastating and versatile shots to ever grace the sport. The Federer forehand is a shot that's helped the Swiss legend win 17 Grand Slams and dominate the sport like no other player before him.
Tatiana Martinez and Micayla Basso
The primary objective of this research investigation was to analyze the translational kinematics of a tennis forehand. For one, it sought to demonstrate the temporal points of the forehand motion at which the wrist speed and racket head speed are at a maximum. Ideally, these speed values should peak when the tennis ball is in contact with the racket, but they were found to be actually slightly before or after contact, on the order of milliseconds.
physiological and biomechanical analysis of the tennis serve, forehand and backhand, as well as a 3D Newton-Euler dynamical analysis of the tennis racket motion during these shots. In the future, numerical simulations will necessarily support similar analysis, together with the racket stress-strain elasticity analysis, as well as
The amplitude of the racquet displacement is higher in forehand (1,536.92 ± 222.63 mm) than in backhand (681.20 ± 174.18 mm, p < 0.001) and in reprogramming (775.42 ± 22.27 mm, p < 0.001) strokes. No significant difference was observed between backhand and reprogramming shots.