The problem presented involves a tank used to pressurize a water-fertilizer solution for delivery from a sprayer. The tank is pressurized at a gauge pressure of 15 kPa. The height \( h \) of the liquid in the tank is 0.8 meters. The question asks for the velocity (in meters per second) of the fertilizer at the outlet.### Diagram Description: The image depicts a cylindrical tank with a liquid inside. The height of the liquid column is labeled as \( h \), and the top of the tank indicates a pressure labeled \( p \). The outlet is positioned at the bottom side of the tank.### Multiple Choice Answers:- 5.83 m/s- 3.58 m/s- 6.76 m/s- 4.85 m/sTo solve the problem, you would typically use principles from fluid dynamics, such as Bernoulli's equation, to find the velocity of the fluid exiting the tank.

Given Height 0.8 mPressure 15 kPa guageTo find out Velocity

The tank shown is used to pressurize a water-fertilizer solution for delivery from a sprayer. The tank is pressurized at p = 15 kPa gage. Height h is 0.8 m. What is the velocity (m/s) of the fertilizer at the outlet? O 5.83 m/s O 3.58 m/s O 6.76 m/s O 4.85 m/s Pressure, p hol vang toor vode innt boath

The tank shown is used to pressurize a water-fertilizer solution for delivery from a sprayer. The tank is pressurized at p = 15 kPa gage. Height h is 0.8 m. What is the velocity (m/s) of the fertilizer at the outlet? O 5.83 m/s O 3.58 m/s O 6.76 m/s O 4.85 m/s Pressure, p hol vang toor vode innt boath

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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Concept explainers

Pressurized pipe flow

A 15-kilometer-long pipe with a pipe diameter of one meter transports water at a speed of one meter per second. The pipe has a friction coefficient of 0.005. Calculate the frictional head loss?

Question

The problem presented involves a tank used to pressurize a water-fertilizer solution for delivery from a sprayer. The tank is pressurized at a gauge pressure of 15 kPa. The height \( h \) of the liquid in the tank is 0.8 meters. The question asks for the velocity (in meters per second) of the fertilizer at the outlet.

### Diagram Description:
The image depicts a cylindrical tank with a liquid inside. The height of the liquid column is labeled as \( h \), and the top of the tank indicates a pressure labeled \( p \). The outlet is positioned at the bottom side of the tank.

### Multiple Choice Answers:
- 5.83 m/s
- 3.58 m/s
- 6.76 m/s
- 4.85 m/s

To solve the problem, you would typically use principles from fluid dynamics, such as Bernoulli's equation, to find the velocity of the fluid exiting the tank.

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