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CHEMICAL ENGINEERING

For a given Reynold number as d/D for an orifice increases, Cd will (where, d & D are orifice & pipe diameters respectively).

CHEMICAL ENGINEERING, Fluid Mechanics /
Question: For a given Reynold number as d/D for an orifice increases, Cd will (where, d & D are orifice & pipe diameters respectively).
[A].

increase

[B].

decrease

[C].

remain constant

[D].

either (a) or (b); depends on other factors

Answer: Option A

Explanation:

No answer description available for this question.

For a given Reynold number as d/D for an orifice increases, Cd will (where, d & D are orifice & pipe diameters respectively). Read More »

CHEMICAL ENGINEERING, Fluid Mechanics

Forces acting on a particle settling in fluid are __________ forces.

CHEMICAL ENGINEERING, Fluid Mechanics /
Question: Forces acting on a particle settling in fluid are __________ forces.
[A].

gravitational & buoyant.

[B].

centrifugal & drag.

[C].

gravitational or centrifugal buoyant drag.

[D].

external, drag & viscous.

Answer: Option C

Explanation:

No answer description available for this question.

Forces acting on a particle settling in fluid are __________ forces. Read More »

CHEMICAL ENGINEERING, Fluid Mechanics

Cd, Cc and Cv are related (for flow through an orifice) as (where, Cd = discharge co-efficientCc = co-efficient of contractionCv = co-efficient of velocity)

CHEMICAL ENGINEERING, Fluid Mechanics /
Question: Cd, Cc and Cv are related (for flow through an orifice) as (where, Cd = discharge co-efficientCc = co-efficient of contractionCv = co-efficient of velocity)
[A].

Cd = Cc/Cv

[B].

Cd = Cc.Cv

[C].

Cd = Cv/cc

[D].

none of these

Answer: Option B

Explanation:

No answer description available for this question.

Cd, Cc and Cv are related (for flow through an orifice) as (where, Cd = discharge co-efficientCc = co-efficient of contractionCv = co-efficient of velocity) Read More »

CHEMICAL ENGINEERING, Fluid Mechanics

For a stable equilibrium of a submerged body (where, G and B are centres of gravity & buoyancy respectively).

CHEMICAL ENGINEERING, Fluid Mechanics /
Question: For a stable equilibrium of a submerged body (where, G and B are centres of gravity & buoyancy respectively).
[A].

G is above B

[B].

B is above G

[C].

B & coincide

[D].

none of these

Answer: Option B

Explanation:

No answer description available for this question.

For a stable equilibrium of a submerged body (where, G and B are centres of gravity & buoyancy respectively). Read More »

CHEMICAL ENGINEERING, Fluid Mechanics

If in a flow field, between any two points, then the flow must be

CHEMICAL ENGINEERING, Fluid Mechanics /
Question: If in a flow field, between any two points, then the flow must be
[A].

steady, incompressible, irrotational.

[B].

steady, compressible, irrotational.

[C].

steady, compressible and along a streamline.

[D].

unsteady, incompressible, irrotational.

Answer: Option A

Explanation:

No answer description available for this question.

If in a flow field, between any two points, then the flow must be Read More »

CHEMICAL ENGINEERING, Fluid Mechanics