A tape, of width w = 25.40 mm is to be coated on both sides with a lubricant by drawing in through a narrow gap of length, L as depicted in Figure 2. Following below values are given: c = 0.300 mm, t = 0.381 mm, and L = 20.0 mm. The lubricant, of dynamic viscosity = 1.0054 kg/m.s completely fills the gap and the velocity distribution is assumed to linear as shown in Figure 2. The maximum allowable force in the tape is given as F = 30.04 N. Find the maximum allowable tape speed
A tape, of width w = 25.40 mm is to be coated on both sides with a lubricant by drawing in through a narrow gap of length, L as depicted in Figure 2. Following below values are given: c = 0.300 mm, t = 0.381 mm, and L = 20.0 mm. The lubricant, of dynamic viscosity = 1.0054 kg/m.s completely fills the gap and the velocity distribution is assumed to linear as shown in Figure 2. The maximum allowable force in the tape is given as F = 30.04 N. Find the maximum allowable tape speed
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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A tape, of width w = 25.40 mm is to be coated on both sides with a lubricant by drawing in through
a narrow gap of length, L as depicted in Figure 2. Following below values are given:
c = 0.300 mm, t = 0.381 mm, and L = 20.0 mm.
The lubricant, of dynamic viscosity = 1.0054 kg/m.s completely fills the gap and the velocity
distribution is assumed to linear as shown in Figure 2. The maximum allowable force in the tape is
given as F = 30.04 N. Find the maximum allowable tape speed
Transcribed Image Text:Ft
Figure 2
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