Determine the force acting through the bolts of the flange, Physics

This spray head discharges water (density 62.4 lbm/ft ) at a rate of 4 ft /s. Assuming irrotational flow and an efflux speed of 65 ft/s in the free jet, determine what force acting through the bolts of the flange is needed to keep the spray head on the 6 in. pipe. Neglect gravitational forces.

1215_Determine the force acting through the bolts of the flange.png

Posted Date: 3/11/2013 1:51:57 AM | Location : United States







Related Discussions:- Determine the force acting through the bolts of the flange, Assignment Help, Ask Question on Determine the force acting through the bolts of the flange, Get Answer, Expert's Help, Determine the force acting through the bolts of the flange Discussions

Write discussion on Determine the force acting through the bolts of the flange
Your posts are moderated
Related Questions
Refractive Index: The ratio of sine of angle of incidence to the sine of angle of refraction is constant for all rays passing single medium to another medium. This constant is

Poisson equation (S.D. Poisson) It is the differential form of Gauss' law, such as, div E = rho,

norton theorem and its application and uses in sciences

Inertia with a spade Scoop up a spadeful of dry earth. Now pitch the earth away from you. View that when the spade stops the earth flies on due to inertia.

A boy throws a ball vertically upward with a velocity of 6 meters per second. How long does it take the ball to return to the boy's hand? Ans: A boy throws a ball vertically

According to Einstein''s Theory of Relativity, would time be able to be expressed as a binary system, with a + 1 as yes, a - 1 as a no, and a 0 as an unanswered question?

WHAT IS THE MEAN OF HEAT

A ballerina begins a tour jete with angular speed ?i and a rotational inertia consisting of two parts: Ileg = 1.55 kg*m^2 for her leg extended outward at angle ? = 90.0 to her body

Write down Seteps of differential equation for simple harmonic oscillator subjected to a damping force proportional to periodic force of angular frequency ω and velocity of oscilla

The work done by a friction force is: a) Always positive b) Always negative c) Always zero d) Either positive or negative depending upon the situation. An