Frank Wilcoxon (2 September 1892 18 November
1965)
Frank Wilcoxon was a chemist and statistician, known for the development of
several statistical tests.
Frank Wilcoxon was born to American parents on 2 September 1892 in County
Cork, Ireland. He grew up i

Engineering Mechanics
Page 1 of 17
ENGINEERING
MECHANICS
C. Cormier
Fall 2000
Engineering Mechanics
Page 2 of 17
Purpose:
- Introduce students to the theory of some simple
machines.
- Apply the theory of simple machines to robotics design.
C. Cormier
Fall

1.060 Engineering Mechanics II
Spring 2006
Problem Set 9
Due on Monday, May 8th
Important note: Please start a new sheet of paper for each problem in the problem
set. Write the names of the group members who contributed to the solution at the
beginning of

1
Introduction to Engineering Mechanics
The state of rest and state of motion of the bodies under the action of different forces
has engaged the attention of philosophers, mathematicians and scientists for many centuries.
The branch of physical science th

EASTERN ARIZONA COLLEGE
Engineering Mechanics I Statics
Course Design
2014-2015
Course Information
Division
Mathematics
Course Number
EGR 214
Title
Engineering Mechanics I - Statics
Credits
3
Developed by
Thomas R. Palmer
Lecture/Lab Ratio
2 Lecture/3 Lab

01Ch01.qxd
6
9/25/08
7:49 PM
CHAPTER 1
Page 6
Tension, Compression, and Shear
Problem 1.2-6
Car on inclined track
vi is
a C stu
ou dy
rs re
eH so
er urc
o. e
co w
m as
Solution 1.2-6
sh
ar
ed
A car weighing 130 kN when fully loaded is
pulled slowly up a s

EM 319 Mechanics of Solids
Spring 2013
Unique ID: 13820, 13825, 13830, 13835
Mid-Term Exam #2
Friday, April 11, 2013
11:00 am 12:15pm.
WEL 2.122
This is a closed exam. Books, notes, homework solutions etc are not allowed.
You may use a calculator.
Sh

MEE211: Engineering Mechanics I [Statics]
Lecture 1
Lecture 1: Introduction to Engineering Mechanics
Engineering
Mechanics
Engineering mechanics is the physical science which studies _
_. The subject is
usually divided into two parts namely _ and _.
Stati

Mechanical Engineering Overview
The Field - Preparation - Day in the Life - Earnings - Employment Development - Career Path Forecast - Professional Organizations
The Field
Mechanical engineering is one of the largest, broadest, and oldest
engineering disc

EE 325 Electromagnetic Engineering (#16405)
Class hours and location: M-W-F 9:00-10:00 am , ENS 115
Instructor: Prof. Mikhail Belkin; mbelkin@ece.utexas.edu, phone (512) 471-4424 (MER)
Class home page: at Blackboard (https:/courses.utexas.edu)
Office Hour

Physics 131: tutorial week 6 Waves (2)
1. A string of length 2,0 m and mass 40 g is under a tension of 8,0 N. Calculate the speed
with which a transverse wave will travel along it.
(20 ms1 )
The mass per unit length of the string,
m
0, 040
=
=
= 0, 020 k

THE UNIVERSITY OF TEXAS AT AUSTIN
Department of Aerospace Engineering and Engineering Mechanics
EM 311M - DYNAMICS
Spring 2012
SYLLABUS
UNIQUE NUMBERS:
13815, 13820, 13825, 13830
INSTRUCTOR:
Dr. Pablo Seleson <seleson@ices.utexas.edu>
ACES 6.328, (512) 23

Introduction
Waves exists all around us. We can produce them through sound or create them in a string or rope. In this lab we
create sound waves by using tuning forks which are rated at different frequencies and tapping them with a rubber
rod. In this exp

5 Interference of Light
By:
Date of lab: Oct 20,2015
1 Introduction
Aim:
1. To demonstrate interference, which occurs when
two waves superimpose each other to form a resultant
wave with either a greater or lower amplitude than the
individual wave dependin

Assignment #1: Resume & Cover Letter
Assignment
Due: September 24nd, 2014 by 4:00 P.M.
For your assignment, you will put into practice the information covered by the Engineering Employment Centres
presentation (you can view the presentation on the course

EXPERIMENT 11
Resonance in a Closed-End Pipe
Principles of an Organ Pipe
Objectives
determine the relationship between frequency and wavelength for sound waves
to verify the relationship between the frequency of the sound, the speed of sound in
air and th

Problem 1
Problem 2
Problem 3
Problem 4
Problem 5
Problem 6
Problem 7
Problem 8
Problem 9
Problem 10
Problem 11
Problem 12
Problem 13
Problem 14
Problem 15

EM 319 Mechanics of Solids
Homework Assignment #7
Assigned: March 20, 2013; Due Date: March 26, 2013 (in class)
Problem1
Problem2
Problem3
Problem4
Problem5
Problem8
Problem6
Problem7
Problem9
A beam of rectangular cross section (width b, height
h) is sub

EM 319 Mechanics of Solids
Homework Assignment #3
Assigned: February 6, 2013; Due Date: February 12, 2013 (in class)
1
2
3
4
Problem 5. Find the area, A, the first moments Qx, Qy, the location of the centroid (xc,yc), and the second moments Ix, Iy, Ixy fo

EM 319 Mechanics of Solids
Homework Assignment #4
Assigned: February 13, 2013; Due Date: February 19, 2013 (in class)
The first three problems were assigned in Hwk #3; but are reassigned for Hwk #4
1
2
3
4
5
6
7

EM 319 Mechanics of Solids
Homework Assignment #8
Assigned: March 28, 2013; Due Date: April 2, 2013 (in class)
Problem1
Problem3
Problem4
Problem2
Problem5

EM 319 Mechanics of Solids
Homework Assignment #2
Assigned: January 29, 2013; Due Date: February 5, 2013 (in class)
1
The bar is hanging under its own weight (assume mass density = ).
Assume that x = L/2. Obtain the reactions RA and RB at the supports A a

EM 319 Mechanics of Solids
Homework Assignment #5
Assigned: February 26, 2013; Due Date: March 5, 2013 (in class)
Probem 1. A solid circular bar ABCD with fixed supports is acted upon by
torques T0 and 2T0 at the locations B and C as shown in the figure.