A brand of toothpaste is made using a mixture of white and red paste. During the manufacturing process, both pastes are pumped through a pipe, with the red paste lying in the centre of the pipe, as shown in Figure Q2. The pipe has an internal radius, R₂, and the segment of red paste has a radius R₁. The flow is found to follow the Poiseuille equation, i.e. u(r) 1 dp 4u dx (R² - r²) Where u is the viscosity of the paste and toothpaste through the pipe is Qtot, and the flowrate of the red paste is Qred. is the pressure gradient. The total flow of The toothpaste has a density of p = 1200 kg/m³, and a viscosity of 0.03 Pa.s. The pipe has a radius R₂ = 5 cm and a length L = 2 m.

Find an expression for the flowrate of the red toothpaste. You answer should be in terms of μ, ?1, ?2, d? /d? )

Transcribed Image Text:

A brand of toothpaste is made using a mixture of white and red paste. During the manufacturing process, both pastes are pumped through a pipe, with the red paste lying in the centre of the pipe, as shown in Figure Q2. The pipe has an internal radius, R₂, and the segment of red paste has a radius R₁. The flow is found to follow the Poiseuille equation, i.e. u(r): 1 dp 4u dx - (R² - r²) Where μ is the viscosity of the paste and is the pressure gradient. The total flow of dx toothpaste through the pipe is Qtot, and the flowrate of the red paste is Qred. The toothpaste has a density of p = 1200 kg/m³, and a viscosity of 0.03 Pa.s. The pipe has a radius R₂ = 5 cm and a length L = 2 m.

Transcribed Image Text:

R₁ R₂ u(y) Figure Q2: Flow of toothpaste of two different colours.