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On the sun's differential rotation

✍ Scribed by B. R. Durney

Publisher
Springer
Year
1974
Tongue
English
Weight
427 KB
Volume
38
Category
Article
ISSN
0038-0938

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✦ Synopsis

It is assumed that the meridional motions (U) and angular velocity (g2) in the surface layers of the convection zone are given by simple expressions of the form: Ur=2~t(r)P2(cosO)/Qr 2, Uo = --~u'(r) sin0 cosO/er, and ~ =-(20[(1 + coo(r) + c02 (r) P2(cos0)]. Here q/(r) is the stream function, P2 (cos0) the second order Legendre polynomial, and 0 the polar angle. Allowance is made for a possible difference in the rate of momentum exchange between the directions parallel and perpendicular to gravity by introducing an anisotropic turbulent viscosity coefficient,/t, which is assumed furthermore to b~ proportional to the density, Q;/z = ev, and Voo = v~ = SVrr. It is shown that if the sunspots give an indication of the Sun's angular velocity at a depth h(~ 3 β€’ 104 km) then the turbulent viscosity is necessarily anisotropic. The radial variation introduced by this anisotropy seems to explain well the sunspot data if we assume that the sunspots act as tracers of the Sun's angular velocity.

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