of shear stress due to viscosity and cross-sectional (d) ratio (b) different (c) product raton's law of viscosity, the shear stress on a layer of a fluid is 9) Viscous force is the (a) sum to the rate of sh

Elements Of Electromagnetics
7th Edition
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Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Q 9 please
1)The gravity at a location is 5 ms. The density of fluid was 2000 kg/m³. The pressure exerted by a column
of 1 m of the fluid will be
(a) 400 N/m²
(b) 10000 N/m²
(c) 2000 N/m²
(d) 5 N/m²
2) The specific weight of a fluid is 20000 N/m³. The pressure (above atmosphere) in a tank bottom containing
the fluid to a height of 0.2 m is
(a) 40000 N/m²
(b) 2000 N/m²
(c) 4000 N/m²
(d) 20000 N/m²
3) The pressure less than atmospheric pressure is known as
(a) suction pressure (b) vacuum pressure (c) negative gauge pressure (d) all of these
(4) A flow in which the volume of a fluid and its density does not change during the flow is called
flow.
(a) incompressible
5) A flow in which
(a) Elastic
(b) Compressible
(c) laminar
(d) turbulent
force is dominating over the viscosity is called turbulent flow.
(c) Viscous
(d) Inertia
(b) surface tension
6) Reynold's number is the ratio of inertia force to
(a) pressure force
(b) elastic force
7)Laminar flow
(a) takes
8) The shear stress-strain
(a) straight line
(c)gravity force
place at very low velocities.
(b) does not take
graph for a Newtonian fluid is a
(b) parabolic curve
(c) hyperbolic curve
(d) elliptical
9) Viscous force is the
(a) sum
(b) different
of shear stress due to viscosity and cross-sectional area
(c) product
(d) ratio
10) According to Newton's law of viscosity, the shear stress on a layer of a fluid is
strain.
(a) equal to
(b) directly proportional
(c) inversely proportional
11) The maximum velocity in a circular pipe when flow is laminar occurs at
(a) the top of the pipe
(c) (D/3) from bottom of the pipe
12) The unit of the constant(H) in the Bernoulli's equation is
mkg, Is
kg,
(a)
(b)
13) The relation between hydraulic coefficients is
(a) C₁ = C₁/C₂ (b) C₁=C₂/C, (c)
(d) viscous force
m.kg,/kg,
C₁=C₂ *C₁ √2gh (d)
(b) the center of the pipe
(d) (D/3) from the top of the pip
m.kg, IN
of flow.
(d)
C₁=C₁ C₁ √2gh
to the rate of shear
Transcribed Image Text:1)The gravity at a location is 5 ms. The density of fluid was 2000 kg/m³. The pressure exerted by a column of 1 m of the fluid will be (a) 400 N/m² (b) 10000 N/m² (c) 2000 N/m² (d) 5 N/m² 2) The specific weight of a fluid is 20000 N/m³. The pressure (above atmosphere) in a tank bottom containing the fluid to a height of 0.2 m is (a) 40000 N/m² (b) 2000 N/m² (c) 4000 N/m² (d) 20000 N/m² 3) The pressure less than atmospheric pressure is known as (a) suction pressure (b) vacuum pressure (c) negative gauge pressure (d) all of these (4) A flow in which the volume of a fluid and its density does not change during the flow is called flow. (a) incompressible 5) A flow in which (a) Elastic (b) Compressible (c) laminar (d) turbulent force is dominating over the viscosity is called turbulent flow. (c) Viscous (d) Inertia (b) surface tension 6) Reynold's number is the ratio of inertia force to (a) pressure force (b) elastic force 7)Laminar flow (a) takes 8) The shear stress-strain (a) straight line (c)gravity force place at very low velocities. (b) does not take graph for a Newtonian fluid is a (b) parabolic curve (c) hyperbolic curve (d) elliptical 9) Viscous force is the (a) sum (b) different of shear stress due to viscosity and cross-sectional area (c) product (d) ratio 10) According to Newton's law of viscosity, the shear stress on a layer of a fluid is strain. (a) equal to (b) directly proportional (c) inversely proportional 11) The maximum velocity in a circular pipe when flow is laminar occurs at (a) the top of the pipe (c) (D/3) from bottom of the pipe 12) The unit of the constant(H) in the Bernoulli's equation is mkg, Is kg, (a) (b) 13) The relation between hydraulic coefficients is (a) C₁ = C₁/C₂ (b) C₁=C₂/C, (c) (d) viscous force m.kg,/kg, C₁=C₂ *C₁ √2gh (d) (b) the center of the pipe (d) (D/3) from the top of the pip m.kg, IN of flow. (d) C₁=C₁ C₁ √2gh to the rate of shear
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