Answer:
speed = 0.17m/s
Explanation:
For water at 20°c,
[tex]m = 1*10^3Ns/m^2[/tex]
For ethylene glycol at 20°c,
[tex]m =1.99*10^2N.s/m^2[/tex]
Shear stress due to motion of the upper plates:
[tex] r_1 =u(dv/dy) [/tex];
= u(v/b)
[tex] = 1*10^-^3 * (2.00/0.0015) [/tex];
[tex] = 1.33N/m^2 [/tex]
Therefore, for the middle plate to be stationery, the bottom plate must move to the left at a speed that produces equal oppostite force.
Therefore,
[tex] r_1=r_2= 1.33N/m^2 [/tex];
[tex] r_1 = u(dv/dy) [/tex];
[tex]= 1.99*10^3 *(v/0.0025) = 1.33[/tex]
To find V we have
[tex]V = (0.0025*1.33) / 1.99*10^-^3 [/tex]
V= 0.17m/s
N.b: I believe you have the diagram
