Water at 15 degrees Celsius (density=1000 kg/m^3; and dynamic
viscosity = 1.14x10^-3 kg/ m*s). Evaluate the reynolds number for
the internal flow in the following configuration.
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Water at 15 degrees Celsius (density=1000 kg/m^3; and dynamic viscosity = 1.14x10^-3 kg/ m*s). Evaluate the...
The density of water is p = 1000 kg and the viscosity is u = 2 kg. Consider diameter of pipe is lm and the velocity of the flow is 1m/s. Compute the Reynolds number. m3 Compute the friction factor, if Reynolds number in pipe flow is 1000.
3. A Newtonian fluid with a dynamic or absolute viscosity of 0.38 Ns/m” and a Density of 910 kg/m flows through a 25 mm diameter pipe with a velocity of 2.6 m/s. Find out Reynolds number of the fluid. Is the fluid flow lamina, transient, or turbulent?
Water at 10 degrees Celsius and a velocity of 2.5 m/s is flowing along a 4.5 m long flat plate at a uniform temperature of 40 degrees Celsius. If the plate is 1.5 m wide, determine: a) the distance from the leading edge of the plate where the flow becomes turbulent, b) the heat transfer rate between the plate and the flowing water, c) the fraction of the force exerted by the water on the first half of the plate...
Water at 4 degrees Celsius has a density of 1000 kg/m^3. What is the equivalent value in units of: a. lbm/ft^3 b. gmol/L Please show all work and conversions.
density (kg/m) viscosity (cp mPa s) VISCOsI water 20°C air 20°C 1000 1.204 1090 1.03 02217 250,000 eanut butter Paper Homework 3 Viscosity and Flow. Learning Objectives: 1. Gain a feel for the Reynolds number for typical situations. 2. Determine type of flow from the Reynolds number. Calculate the Reynolds number, Re - (2rpv)/ n, for the following situations and decide whether the flow of fluid around them is laminar or turbulent. Then calculate the frag force using the appropriate...
density (kg/m) viscosity (cp mPa s) VISCOsI water 20°C air 20°C 1000 1.204 1090 1.03 02217 250,000 eanut butter [4] For a blue whale, a fast speed is 13.9 m/s and the radius for their cross-section is 1.9 meters. Calculate the Reynolds number.
Water at 15 degree Celsius , density = 999kg/cubic meter, viscosity = 0.001138 kg/ms , is flowing steadily in a 5 cm diameter horizontal pipe made of stainless steel at a rate of 0.006 m3/s . Determine the pressure drop, the head loss and the required pumping power input for flow over a 60m long section of the pipe.
Air with a dynamic viscosity of 18.1 x 10 N m/s, a density of 1.2 kg/m' and a free stream velocity of 20 m/s flows over a 0.8 m long by 0.3 m wide flat plate. 20 m/s -0.5 m - -0.8 m a. Find the type of flow on flat plate based on Reynolds number b. Find the boundary layer thickness at distance of 0.5 m from the leading edge c. Find the wall shear stress at a horizontal...
density (kg/m) viscosity (cp mPa s) VISCOsI water 20°C air 20°C 1000 1.204 1090 1.03 02217 250,000 eanut butter [5] Many microscopic organisms and small multi-cell creatures who live (and move) in water move by using flagella or shorter cilia moving in a wavelike fashion to push against the water. A large paramecium can have a radius of 0.5 mm. and can move at speeds up to 1mm/s. Calculate the Reynolds number for these "wee beasties"
FIGURE 1 shows a branching pipe system through which is flowing water of density 1000 kg m-3 and viscosity 1.0 x 103 Pa s. 2. AVI Diameter at A 600 mnm Diameter at B500 mm Diameter at C 300 mm FIG. 1 If the volumetric flowrate at point A is 586 m3 h1 and the flow velocity at point C is 0.61 m s-1 determine: the mass flowrate at pointB a. b. the Reynolds number of the flow at point...