IV. CALCULATION1. Calculate the absolute viscosity (u) as follows:1 [d2 - (p. – p1) · g]18= diameter of sphereP. = density of spherepr = density of fluidWhere:dgravitational acceleration, 9.81 m/s?terminal velocity, D/tVT = 2. Calculate the kinematic viscosity (v) as followsWhere: H = absolute viscosity= density of fluidPrv. DATA, RESULTS, AND COMPUTATIONTable 2.1 Properties of the BallValueUnitDiameter (d)Mass (m)Volume (V)Density (p.)5.55 x 10^-3 m6х 10^-4 kg8.95 x 10^-8 m^3Table 2.2 Properties of Liquid SamplesCylinder 1Cooking Ol0.3775kgCylinder 2Cylinder 3Liquid productWeight of emptycylinderWeight ofcylinder + liquidWeight of liquidVolume of liquidDensity (po)Kerosene0.3773kgEthanol0.3773kg0.8222kg0.7739kg0.7189kg5x 10^-4 m^35x 10^-4 m^34.45 x 10^-4 m^3Table 2.3 Time of ball drop in each liquid sampleCylinder 1Cooking OilCylinder 3KeroseneCylinder 2Liquid productTrial 1EthanolBall drop time(sec)Distance traveled(mm)Velocity(m/s)0.65s0.225s0.265s0.291m0.288m0.256mTrial 2Ball drop time(sec)Distance travelled(mm)Velocity(m/s)0.61s0.22s0.23s0.291m0.288m0.256m

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IV. CALCULATION 1. Calculate the absolute viscosity (u) as follows: 1 [d2 - (p, – p1) · g] 18 = diameter of sphere P. = density of sphere Pr = density of fluid Where: d gravitational acceleration, 9.81 m/s terminal velocity, D/t VT =

IV. CALCULATION 1. Calculate the absolute viscosity (u) as follows: 1 [d2 - (p, – p1) · g] 18 = diameter of sphere P. = density of sphere Pr = density of fluid Where: d gravitational acceleration, 9.81 m/s terminal velocity, D/t VT =

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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