1:09A moodle1.du.edu.om1 من 1Dhofar university(Vision for the Future)COLLEGE OF ENGINEERING(Department of Mechanical and Mechatronics Engineering)Assignment 2(Fall 2020-21)Course CodeENGR 100Course TitleCourse InstructorIntroduction to EngineeringDr. Furgan AhmadName of StudentStudent IDSection No.02Date of Submission06-12-2020Maximum Marks10Question 1:(10 Marks)1. Find out the volume flow rate (Q1) in section 1 of the piping system. (2 Marks)2. Find out the volume flow rate (Qs) in section 3. (2 Marks)3. Find out the volume flow rate (Q2) and velocity (vz) in section 2. (4 Marks)4. Find the time (f) needed to completely fill the tank. (2 Marks)d- 23 cmd- 35 cm- 9.5 m'sw 7 m's4-17 cmv-32 m(Page 1 of 1

Given data: The diameter of pipe at section 1 is d1=23 cm=0.23 m. The velocity of the flow at…

1. Find out the volume flow rate (Q) in section I of the piping system. (2 Marks) 2. Find out the volume flow rate (Q) in section 3. (2 Marks) 3. Find out the volume flow rate (Q) and velocity (v2) in section 2. (4 Marks) 4. Find the time (1) needed to completely fill the tank. (2 Marks) d- 23 cm w- 9.5 ms d- 35 cm w 7 ms d- 17 cm -32 m

1. Find out the volume flow rate (Q) in section I of the piping system. (2 Marks) 2. Find out the volume flow rate (Q) in section 3. (2 Marks) 3. Find out the volume flow rate (Q) and velocity (v2) in section 2. (4 Marks) 4. Find the time (1) needed to completely fill the tank. (2 Marks) d- 23 cm w- 9.5 ms d- 35 cm w 7 ms d- 17 cm -32 m

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Fluid Dynamics

The study of the flow of gases and liquids, usually in and around solid surfaces, is known as fluid dynamics in physics and engineering. Fluid dynamics, for example, can be used to evaluate the movement of air through an airplane wing or the surface of a vehicle. It can also be used in ship design to increase the speed at which ships pass through water.

Question

1:09
A moodle1.du.edu.om
1 من 1
Dhofar university
(Vision for the Future)
COLLEGE OF ENGINEERING
(Department of Mechanical and Mechatronics Engineering)
Assignment 2
(Fall 2020-21)
Course Code
ENGR 100
Course Title
Course Instructor
Introduction to Engineering
Dr. Furgan Ahmad
Name of Student
Student ID
Section No.
02
Date of Submission
06-12-2020
Maximum Marks
10
Question 1:
(10 Marks)
1. Find out the volume flow rate (Q1) in section 1 of the piping system. (2 Marks)
2. Find out the volume flow rate (Qs) in section 3. (2 Marks)
3. Find out the volume flow rate (Q2) and velocity (vz) in section 2. (4 Marks)
4. Find the time (f) needed to completely fill the tank. (2 Marks)
d- 23 cm
d- 35 cm
- 9.5 m's
w 7 m's
4-17 cm
v-32 m
(Page 1 of 1

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