The viscosity of water can be determined by studying the Poiseuille's flow in a capillary tube connected to cylindrical container as shown in the adjacent figure. The density and viscosity of water are given by 1.00 gcc-¹ and 1.00 mN-sm². The radius and length of the capillary is 1.00 mm and 20 cm. If Radius of the vessel is 15.0 cm, then the time taken for height of water to reduce to half the initial is a) 15.02 minute b) 1.502 hour 22.03 minute d) 42. 43 minute
The viscosity of water can be determined by studying the Poiseuille's flow in a capillary tube connected to cylindrical container as shown in the adjacent figure. The density and viscosity of water are given by 1.00 gcc-¹ and 1.00 mN-sm². The radius and length of the capillary is 1.00 mm and 20 cm. If Radius of the vessel is 15.0 cm, then the time taken for height of water to reduce to half the initial is a) 15.02 minute b) 1.502 hour 22.03 minute d) 42. 43 minute
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Transcribed Image Text:The viscosity of water can be determined by studying the Poiseuille's flow
in a capillary tube connected to cylindrical container as shown in the
adjacent figure. The density and viscosity of water are given by 1.00 gcc-¹
and 1.00 mN- sm². The radius and length of the capillary is 1.00 mm and
20 cm. If Radius of the vessel is 15.0 cm, then the time taken for height of
water to reduce to half the initial is
a) 15.02 minute
b) 1.502 hour
c) 22.03 minute
d)
42. 43 minute
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