Mechanical Engineering - Hydraulics and Fluid Mechanics - Discussion

Discussion Forum : Hydraulics and Fluid Mechanics - Section 5 (Q.No. 7)

Hydraulics and Fluid Mechanics

A jet of water discharging from a 40 mm diameter orifice has a diameter of 32 mm at its vena contracta. The coefficient of contraction is

0.46

0.64

0.78

0.87

Answer: Option

Explanation:

No answer description is available. Let's discuss.

Discussion:

11 comments Page 1 of 2.

Prvaeen kumar said: 9 years ago

CC = Area at vena contracta/ Area of orifice.

The typical value may be taken as 0.64 for a sharp orifice (concentric with the flow channel).

MUHAMMAD NABI said: 4 years ago

Cc = area of jet/area of orifice
Cc = π r ^2/&pi r^2
Cc = r^2/r^2
As r = D/2.

32/2 = 16,
40/2 = 20,

Cc = 16^2/20^2.
Cc = 0.64.

(1)

Gopala krishnan said: 1 decade ago

Coefficient of contraction=area of jet/area of orifice.

= ((3.14*32*32)/4)/((3.14*40*40)/4).

= 803.84/1256 = 0.64.

Vishal said: 8 years ago

COC= Area of a jet at vena contracta/Area of orifice.

So, (Dv)2/(Do)2.

32*32/40*40.
= 0.64.

Golla lakshmanna said: 7 years ago

Cc = Ac/A .
Ac = (π/4)d*2 = (3.14/4)*(32*32),
A = (π/4)d*2=(3.14/4)*(40*40),
Cc = 0.64.

Expert's Advice said: 1 decade ago

Coefficient of contraction = Diameter of vena contracta square/Diameter of orifice square.

Golla lakshmanna said: 7 years ago

Cc=Ac/A.
Ac=(π/4)d*2 = (3.14/4)*(32*32),
A=(π/4)d*2=(3.14/4)*(40*40),
Cc=0.64.

Golla lakshmanna said: 7 years ago

Cc=Ac/A.
Ac=(π/4)d*2 = (3.14/4)*(32*32),
A=(π/4)d*2=(3.14/4)*(40*40),
Cc=0.64.

Malik said: 1 decade ago

Coefficient of contraction = Diameter of orifice/Diameter of Jet = 32/40 = 0.8.

Bharat said: 1 decade ago

Coefficient of contraction = Area of vena contracta/Area of orifice.

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