QUIZ #3 10/28/2013
STUDENT_
Ex.1 /100
A dam is used to produce energy.
Calculate the total energy generated
by the turbine under these
conditions:
- Flow
Homework #1 September 22nd 2013, due September 29th 2013 Mech 3315
STUDENT _
GRADE
/100
Ex.1
/20
A Pitot Tube is placed in a wind tunnel (the working fluid is air at sea level under standard pressure
Mid Term Exam 2
MECH 3315.001 F16 Fluid Mechanics
Dr. Giacomo Valerio Iungo
9th November, 2016
Mid Term Exam 2
NAME:
UTD ID:
1.
(20 points) Write if the following statements are true or fals
9th December, 2016
02:00 pm to 04:45 pm
Final Exam
MECH 3315 Fluid Mechanics
Instructor: Dr. Giacomo Valerio Iungo
MECH 3315 F16 Fluid Mechanics
Final Exam
1. (20 points) A reservoir full of water wit
10th October, 2016
Mid Term Exam 1
MECH 3315.001 F16 Fluid Mechanics
Dr. Giacomo Valerio Iungo
Mid Term Exam 1 solution
1.
a.
(20 points) Divergence of the velocity field:
Write the divergence of the
Quiz #1 February 11th 2015
STUDENT _
GRADE
/100
.
Ex.1
/40
A student wishes to design a manometer with better sensitivity than a water-filled U-tube of constant diameter. The students concept
involves
QUIZ #2 10/21/2013
STUDENT_
Ex.1 /30
An airplane is flying at an altitude of 10,000 m at a velocity U=400 km/h. Determine
the total pressure (at 10,000m:
Chapter 10
10-1
From Eqs. (10-4) and (10-5)
KW K B
4C 1 0.615 4C 2
4C 4
C
4C 3
Plot 100(K W K B )/ K W vs. C for 4 C 12 obtaining
We see the maximum and minimum occur at C = 4 and 12 respectively whe
MECH3315.002F17 Fluid Mechanics, PopQuiz 2, 1st Novomber 2017
1. Write the mathematical definition and the physical meaning of vorticity. (20 points)
=
Vorticity is the moment of momentum of a fluid
Mid Term Exam 1
MECH 3315.002 F17 Fluid Mechanics
Dr. Giacomo Valerio Iungo
11th October, 2017
Mid Term Exam 1
NAME:
UTD ID:
1.
a.
(10 points) Divergence of the velocity field:
Write the div
10th October, 2016
Mid Term Exam 1
MECH 3315.001 F16 Fluid Mechanics
Dr. Giacomo Valerio Iungo
Mid Term Exam 1 solution
1.
a.
(20 points) Divergence of the velocity field:
Write the divergence of the
Mid Term Exam 2
MECH 3315.001 F16 Fluid Mechanics
Dr. Giacomo Valerio Iungo
9th November, 2016
Mid Term Exam 2
NAME:
UTD ID:
1.
(20 points) Write if the following statements are true or fals
MECH 3315.001 Fluid Mechanics (Fall 2017)
Homework 5
Issued on: November 6, 2016
Due on: November 13, 2016
A flow field is characterized by the stream function = 2 + 3 . What does the value
of B need
MECH3315.001F16 Fluid Mechanics, PopQuiz 1, 21st September 2016
1.
Say if the following sentences are true or false (30 points):
a) A fluid is always deformed under the action of external forces. Fals
MECH3315.001F16 Fluid Mechanics, PopQuiz 2, 26th October 2016
1. Write the mathematical definition and the physical meaning of vorticity. (30 points)
=
Vorticity is the moment of momentum of a fluid
MECH 3315.001 Fluid Mechanics (Fall 2016)
Homework 7
Issued on: November 30, 2016
Due on: December 07, 2016
1. Consider incompressible flow in a circular channel. Derive general expressions for Reynol
MECH 3315.001 Fluid Mechanics (Fall 2016)
Homework 6
Issued on: November 16, 2016
Due on: November 28, 2016
1. One dimensional unsteady flow in a thin liquid layer is described by the equation
+
=
Us
Introduction to Fluid Mechanics
Chapter 4
Basic Equations in Integral Form for a Control Volume
Main Topics
Basic Laws for a System
Relation of System Derivatives to the Control
Volume Formulation
Con
Introduction to Fluid Mechanics
Chapter 3 Fluid Statics
Main Topics
The Basic Equations of Fluid Statics
Pressure Variation in a Static Fluid
Hydrostatic Force on Submerged Surfaces
Buoyancy
The Basic
Introduction to Fluid Mechanics
Chapter 4
Basic Equations in Integral Form for a Control Volume
Main Topics
Basic Laws for a System
Relation of System Derivatives to the Control
Volume Formulation
Con
Introduction to Fluid Mechanics
Chapter 5
Introduction to Differential Analysis of Fluid Motion
Main Topics
Conservation of Mass
Stream Function for Two-Dimensional
Incompressible Flow
Motion of a Flu
Introduction to Fluid Mechanics
Chapter 8
Internal Incompressible Viscous Flow
Main Topics
Entrance Region
Fully Developed Laminar Flow Between Infinite Parallel Plates
Fully Developed Laminar Flow in
Introduction to Fluid Mechanics
Chapter 8
Internal Incompressible Viscous Flow
Main Topics
Entrance Region
Fully Developed Laminar Flow Between Infinite Parallel Plates
Fully Developed Laminar Flow in
Introduction to Fluid Mechanics
Chapter 7
Dimensional Analysis and Similitude
Main Topics
Nondimensionalizing the Basic Differential
Equations
Nature of Dimensional Analysis
Buckingham Pi Theorem
Sign
MECH3315.001F16 Fluid Mechanics, PopQuiz 3, 30th November 2016
1. Make non-dimensional the following momentum equation in direction x and
determine the governing non-dimensional parameter. (30 points)
Chapter 1
Problems 1-1 through 1-6 are for student research. No standard solutions are provided.
From Fig. 1-2, cost of grinding to 0.0005 in is 270%. Cost of turning to 0.003 in is
60%.
Relative cost
MECH 3315.001 Fluid Mechanics (Fall 2017)
Homework 1
Issued on: August 28, 2017
Due on: September 6, 2017
Problem 1
For the velocity fields given below, determine:
a) Whether the flow is one-, two-
MECH 3315.001 Fluid Mechanics (Fall 2017)
Homework 1
Issued on: August 28, 2017
Due on: September 6, 2017
Problem 1
For the velocity fields given below, determine:
a) Whether the flow is one-, two- or
MECH 3315.001 Fluid Mechanics (Fall 2017)
Homework 2
Issued on: September 13, 2017
Due on: September 25, 2017
Problem 1
Consider the pipeline below, containing in series water, mercury and oil. Determ
MECH 3315.001 Fluid Mechanics (Fall 2017)
Homework 3 - Solutions
Issued on: September 27, 2017
Due on: October 9, 2017
Problem 01 - MASS FLOW AT A PIPE JUNCTION
Consider the steady flow in a water pip
MECH 3315.001 Fluid Mechanics (Fall 2017)
Homework 4
Issued on: October 23, 2017
Due on: October 30, 2017
1. Fluid passes through a set of thin closely-spaced blades inclined of 30 degree from the
=
MECH 3315.001 Fluid Mechanics (Fall 2016)
Homework 4
Issued on: October 19, 2016
Due on: October 31, 2016
= 2 6
1. A velocity field is given by
. Determine an equation for the streamline.
Calculate