14
Wingbeat Frequency Theories—A Mathematical Approach
193
where dimensionless multiplier 1.08 came from multiple regression.
Pennyquick’stheoryispurelybasedondimensionalanalysis.Hisformulainvolves
different physical parameters raised to different powers and is given by
νh = 1.08 ×
�
m
3
8 g
1
2 b
−23
24 s
−1
3 ρ
−3
8
�
,
where f = νh
The abbreviations used are as below:
m = mass of the flier (gm), g = acceleration due to gravity (cm/sec2)
b = semi-wing span (cm), s = wing area (cm2) and
ρ = air density (gm/cm3).
The frequency of the flier is more influenced by the powers of the parameters
(m, g, b, s, ρ) evaluated. The values are in good agreement and are close to natural
frequency of the fliers. He studied marine birds. The value of k is 252.
5.
NEWTON THEORY
In this formula, the frequency of a flier depends directly on square root of mass and
indirectly on wing area. Newton’s theory is based on mass flow concept. However,
larger samples of fliers have to be used for its confirmation. He considered vibration
of wings of a flier similar to an equation of motion of second order differential
equation, as per Newton’s second law of motion of a body or a particle. Newton also
solved the equation assuming sine function.
The formula isνh = K√m
A
,
where K = 252 and m = mass of the flier, A = wing area.
6.
ELLINGTON THEORY (1999)
He studied the kinematic changes with the flight speed of bumblebee [6]. Other
insects like ‘fruit fly’ and ‘hawk moth’ were also studied. He derived the mass ‘m’
that can be supported during hovering as
m = 0.387φ2n2R4C L
Ar
,
(This can also be expressed in terms of νh)
νh =
�
mAr
0.387φ2 R4C L
1/2
,
where φ is wingbeat amplitude (peak to peak in radians) and
n = νh is strokes/seconds of wingbeat (Hz)