DISCUSSION
Of
RESULTS
And
CONCLUSIO
N
Name: Villanueva, Geryl Mikka M.
UNIFORMLY
ACCELERATED MOTION
2
Section: Q3A2
Group: 6
Date Performed: Aug. 23, 2016
Instructor:Ms. Grace Sanchez Date Submitted: Aug. 26,
2016
Discussion of Results
Guide Questions for
MOMENT OF A FORCE
Engr. Erica Elice S. Uy, M. Eng.
Outline
Moment of a Force
Varignons Theorem
Moment of a Force about an Axis
EESU
2
Moment of a Force
A force can rotate a body about an axis.
O
The axis may be any line
which neither intersects nor is
Earl James A. Roque
11509430
American Society of Mechanical Engineers (ASME)
According to the organizations page, ASME "promotes the art, science, and practice
of multidisciplinary engineering and allied sciences around the globe" via
"continuing educatio
COUPLE
Engr. Erica Elice S. Uy, M. Eng.
Outline
Couple
Equivalent Couples
ForceCouple Systems
EESU
2
Couple
The moment produced by two equal,
opposite, and non-collinear forces is cal
led a couple.
Consider the action of two equal and
opposite forces F
Earl James A. Roque
11509430
MENGIOR
An Engineers Life
From our course Science, Technology, and Society 1 (SOCTEC 1) during our
second semester, we have learned about the relationships that exist between
Science, Technology, and our society. Basically, Sc
STATICS: INTRODUCTION
Engr. Erica Elice S. Uy, M. Eng.
Outline
Introduction to Statics: Mechanics
Basic Concepts
Scalars and Vectors
Newtons Laws
Free Body Diagram
EESU
2
Mechanics
Introduction
is a branch of
the physical sciences that is co
ncerned w
Earl James A. Roque
11509430
MENGIOR
The BS/MS Program
Last June 10, 2016, we had an orientation about the BS/MS Program of
the Mechanical Engineering Department of DLSU. Sadly, I came late and I
missed hearing the first speaker, who elaborated the requir
RESULTANTS
Engr. Erica Elice S. Uy, M. Eng.
Outline
Coplanar Concurrent Force System
Coplanar Parallel Force System
Non-Concurrent Force System
EESU
2
Resultant of Coplanar Concurrent
Force System y
y
F1
F2
=
R
Ry
x
F3
Rx
Rx Fx Ry Fy R Rx Ry tan
2
2
x
A Research Study on the
Negative Effects of Poor
Transportation System in Metro
Manila to Students of
Universities Residing Along
Taft Avenue
Review of Related
Literature
McShane, Prassas, and
Roess (1998) discusses
that the objective of
transportation an
Chapter 6
Many Particle Systems
c
2009
by Harvey Gould and Jan Tobochnik
1 August 2009
We apply the general formalism of statistical mechanics to systems of many particles and discuss the
semiclassical limit of the partition function, the equipartition th
Indian Institute of Technology Guwahati
Department of Physics
Mid Semester Examination
Statistical Mechanics: PH404
Date: 2nd March 2016
Full Marks: 30
Time: 2 hours
Answer the following four questions:
1. Surfactant molecules such as those in soap or sha
INDIAN INSTITUTE OF TECHNOLOGY GUWAHATI
Department of Physics
Statistical Mechanics: PH704
Problem set-IV
1. A condensible vapor has a molar entropy
h
s = s0 + R ln C(v b)(u + a/v)5/2
i
where c and s0 are constants and u is the internal energy per mole. (
INDIAN INSTITUTE OF TECHNOLOGY GUWAHATI
Department of Physics
Statistical Mechanics: PH704
Problem set-III
1. Consider a quantum particle with total angular momentum J = 1. Consider a basis
corresponding to the three eigenvectors of the z-component of ang
INDIAN INSTITUTE OF TECHNOLOGY GUWAHATI
Department of Physics
Statistical Mechanics: PH404
Tutorial-III
1. Calculate the number of accessible microscopic states of a system of two localized and
independent quantum oscillators, with fundamental frequencies
Master TPA-M1
2013-2014
Statistical Mechanics
Problem set 4: The Grand Canonical Ensemble
Ex.1. Fluctuation of the number of particles
Prove the following relationship:
N
N
2
kT
N
T ,V
Ex.2. The monatomic ideal gas.
Let us consider a monatomic ideal gas i
1
INDIAN INSTITUTE OF TECHNOLOGY GUWAHATI
DEPARTMENT OF PHYSICS
Mid Semester Examination
PH443:MC Methods and Applications
26th February 2014
Full Marks: 30
Time: 2 hours
Answer the following five questions:
1. (a) Starting from dE = T dS P dV , show that
Master TPA-M1
Statistical Mechanics
Problem set 5: Fermi-Dirac statistics
Ex.1 The 3d ideal fermion gas
Consider a 3d gas of N fermions in the thermodynamic limit.
a) Obtain the relationship between the grand potential J and the energy E of the gas. Deriv
INDIAN INSTITUTE OF TECHNOLOGY GUWAHATI
Department of Physics
MID SEMESTER EXAMINATION
Statistical Mechanics: PH704 Solution
1. There are two possible point defects in the crystal structure, Schottky and Frenkel
defects. In Schottky defect, the atoms are
INDIAN INSTITUTE OF TECHNOLOGY GUWAHATI
Department of Physics
Statistical Mechanics: PH704
Problem set-II
1. Consider a monatomic ideal gas of N molecules confined in a volume V having total
energy E in thermodynamic equilibrium. Calculate the number of m
FORCE SYSTEMS
Engr. Erica Elice S. Uy, M. Eng.
Outline
Force Systems-Two Dimensional
Force Systems
External and Internal Effects
Principle of Transmissibility
Force Classification
Components of a Force
EESU
2
Force Systems
Review: Force is the action