Published on Jan 24, 2020
The key to making a cricket ball swing is to cause a pressure difference between the two sides of the ball. The air pressure depends on the flow of air over each side of the ball. Swing is generated when bowlers, by accident or design, disrupt the flow of air over one side of the ball.
Normal swing is acheived by keeping one side of the ball polished smooth and shiny, and delivering the ball with the polished side forward, and the seam angled in the direction of desired swing. The outswinging delivery moves away from the right-handed batsman, while the inswinger moves in towards him. Normal swing is achieved by maintaining laminar boundary layer air-flow on the shiny side whilst creating turbulent flow on the seam side. These deliveries, particularly the outswinger, are the bread and butter of opening bowlers who get to use the ball while it is still new.
Reverse swing is very different to conventional swing. Although the seam is oriented in the same way as for an outswinger and the action is the same, the rough side of the ball is to the fore, and the ball moves in to the batsman like an inswinger. Reverse swing is achieved when the ball is bowled very fast. In this case the air flow will become turbulent on both sides before it reaches the seam.
Humidity: Despite being widely observed in practice, there is currently no theoretical, or experimental, evidence for humidity having any affect on the amount of swing. Humid air is less dense than dry air - although the difference is minimal - and so would be expected to induce less swing. Experiments in wind tunnels show no noticeable difference in the amount of swing between dry and humid air, and there is no measureable aerodynamic difference in the state of the ball due to moisture.
Late Swing: There are several possible explanations for late swing - where sideways movement occurs only late in the ball's flight.
i). It is an illusion. The flight path of a ball with a constant sideways-acting force applied to it is parabolic: the amount of the sideways movement naturally increases along the flight path.
ii). The ball is initially above the transition speed for turbulent flow on the shiny, non-seam side, but drops below this threshold as it deccelerates in flight, particularly after bouncing, initiating late swing.
iii). The ball rotates slightly in flight, with the seam becoming angled and thus initiating late swing.It is said that this type of swing originated around the turn of the century, but there is evidence that it was in existence well before that time. Bowlers from that era, including WG Grace, had realised that a perfectly new ball favoured the "peculiar flight," so there is not much doubt that it was conventional swing that these bowlers were referring to.
Fast bowlers in cricket make the ball swing by judicious use of the primary seam. The ball is released with the seam at an angle to the initial line of flight. For conventional swing, the ball swings in the same direction that the seam is pointing. So a ball released with the seam angled towards the slip fielders will swing away from the batsman (outswinger) and one released with the seam pointed towards fine leg will swing into the batsman (inswinger).
More Seminar Topics:
Battery Electric Vehicle,
Flexible Manufacturing Systems,
Fast Convergence Algorithms for Active Noise Controlling Vehicles,
Facility Layout Design using Genetic Algorithm,
Cooling and Lubrication of Engines,