The effect of the indirect musculature may be described by a familiar object: the tennis ball. If two pins are stuck into the upper hemisphere of the ball to represent the wings, then compressing the ball vertically flattens the top and bottom of the sphere and pushes the equator outward. This change in the shape of the tennis ball results in the pins moving upward. If the ball is now squashed at the back and front, then flattening occurs at the back and the front of the ball, and the top and bottom are pushed out. In this case, the pins rotate downward.
The housefly and other Diptera, for example, employ this musculature. The benefit of the indirect
muscle system is that it allows much more rapid beating. Gnats can flap their wings up to 1000 times in
a second, and houseflies commonly around 200. The synchronization of the wings is easier to accomplish
because the tergum causes both wings to move at the same time as it pulses in and out. The muscles
themselves require few orders from the brain. The brain only needs to instruct them to start or stop
flapping or to somehow modify the beating of the wings during flight. The muscles maintain the rhythm
of contractions on their own, continuing to contract in the right coordination until told to do otherwise
by the brain. Thus it is that the brain has less work to do to control the flight and the insect can
beat its wings very quickly.