Physics explains Ronaldo Scissor
Real Madrid's Cristiano Ronaldo is still looking forward to his extraordinary goal against Juventus in the quarter-finals of the Champions League. Not only did Ronaldo take care of the athletes, but he extended to physicists who gave a scientific study of the scorched shot Goalkeeper Gianluigi Buffon.
Ronaldo rose in the 64th minute against Juventus to take a 2.40-meter-high ball, and fired it with a powerful shot to score the second goal of his team in the game that ended three clean for the Royal Club.
What distinguishes strokes from a normal ball kick is the height of the player's body from the ground, which provides more distance to move the leg and gives the opportunity to strike a stronger strike.
Also, in the case of the kick, the leg moves very quickly, and once the ball is met, the distance to which the ball can go to it is exceptionally far away, and it reaches an extraordinary speed.
According to the website "InferScience" specialist that Ronaldo's clipped re-recall the results of a specialized program in 2007, and the program then calculate the speed that may move the leg of the professional player due to many movements involved in the kick-scissors.
Experts measured one of the most common variables in the physics of the kick-ins: the angle of acceleration, which measures the speed of the rotation of the foot around the body during the implementation of the kick-scissors.
Scientists likened the way the foot moves in the clipper by the movement of single-axis helicopter blades.
The scientists explained that the difference in the movement of the foot during the regular kick and scissors is to move the foot at an angle parallel to the clock from four to seven, while the movement of the kick-scissors similar to the transition from four to midday.