Name:
_
Student ID:
_
CRN:
_
University of Ontario Institute of Technology
ENGR 2430U: Dynamics
Assignment #1
Date Assigned:
Date Due:
January 18th, 2013
12 PM, Monday 28th, 2013.
Instructions for completion:
Clearly write your name and student number at

Faculty of Engineering and Applied Science
MECE 2430U: Dynamics
Instructor: Dr. Haoxiang Lang
Assignment # 4
First Name: _
Last Name: _
Student ID: _
Date Assigned:
Monday, March 14, 2016
Date Due:
Monday, March 21, 2016, 5:00 PM (drop box #1 in the O

Dynamics
Rami El-Emam
January 31st, 2013
Prepared by: Dr. Colin McDonald
Chapter 13: Kinetics of a Particle:
Force and Acceleration
o Todays Objectives:
Apply Newtons second law to determine forces and
accelerations for particles in rectilinear motion.
A

Dynamics
Rami El-Emam
January 10th, 2013
Prepared by: Dr. Colin McDonald
Chapter 12: Kinematics of a Particle
o Todays Objectives:
Find the kinematic quantities (position, displacement,
velocity, and acceleration) of a particle traveling along a
straight

Dynamics
Rami El-Emam
January 24th, 2013
Prepared by: Dr. Colin McDonald
Chapter 12: Kinematics of a Particle
o Todays Objective:
Relate the positions, velocities, and accelerations of particles
undergoing dependent motion.
To examine the principles of

Dynamics
Rami El-Emam
January 29th, 2013
Prepared by: Dr. Colin McDonald
Chapter 13: Kinetics of a Particle:
Force and Acceleration
o Chapter Objectives:
Write the equation of motion for an accelerating body
Draw the free-body and kinetic diagrams for a

University of Ontario Institute of Technology
MECE 2430U: Dynamics
Assignment 1 (Due: Thursday, January 30, 2014)
Please, clearly write your name and student number on your solution sheet(s)
1) A particle travels along a straight-line path such that in 4

Dynamics
Rami El-Emam
January 17th, 2013
Prepared by: Dr. Colin McDonald
Chapter 12: Kinematics of a Particle
o Todays Objectives :
Determine the normal and tangential components of velocity
and acceleration of a particle traveling along a curved path.

Dynamics
Rami El-Emam
January 15th, 2013
Prepared by: Dr. Colin McDonald
Chapter 12: Kinematics of a Particle
o Todays Objectives:
Describe the motion of a particle traveling along a curved
path
Relate kinematic quantities in terms of the rectangular
co

Dynamics
Rami El-Emam
Feb. 12th, 2013
Prepared by: Dr. Colin McDonald
Chapter 14: Kinetics of a Particle:
Work and Energy
o Todays Objectives:
Determine the power generated by a machine, engine, or
motor
Calculate the mechanical efficiency of a machine.

Dynamics
Rami El-Emam
Feb. 7th, 2013
Prepared by: Dr. Colin McDonald
Chapter 14: Kinetics of a Particle:
Work and Energy
o Todays Objectives:
Calculate the work of a force
Apply the principle of work and energy to a particle or
system of particles
14.1

Dynamics
Rami El-Emam
Feb. 26th, 2013
Chapter 15: Kinetics of a Particle:
Impulse and Momentum
o Todays Objectives:
Calculate the linear momentum of a particle and linear
impulse of a force.
Apply the principle of linear impulse and momentum.
15.1 Princ

Dynamics
Rami El-Emam
March 12th, 2013
Chapter 15: Kinetics of a Particle:
Impulse and Momentum
o Todays Objectives:
Determine the angular momentum of a particle and apply the
principle of angular impulse & momentum.
Use conservation of angular momentum t

Dynamics
Rami El-Emam
March 7th, 2013
Chapter 15: Kinetics of a Particle:
Impulse and Momentum
o Todays Objectives:
Understand the conditions for conservation of momentum
Understand and analyze the mechanics of impact
Analyze the motion of bodies under

Dynamics
Rami El-Emam
Feb. 14th, 2013
CONSERVATIVE FORCES AND POTENTIAL ENERGY
AND CONSERVATION OF ENERGY
Todays Objectives:
1. Understand the concept of conservative forces and determine
the potential energy of such forces.
2. Apply the principle of cons

Faculty of Engineering and Applied Science
MECE 2430U: Dynamics
Instructor: Dr. Anand S. Joshi
Assignment # 3
First Name: _ Last Name: _
Student ID: _
Date Assigned:
Date Due:
Wednesday, February 1, 2017
Wednesday February 8, 2017, 6:00 PM (drop box #6 in

Faculty of Engineering and Applied Science
MECE 2430U: Dynamics
Instructor: Dr. Haoxiang Lang
Assignment # 5
First Name: _ Last Name: _
Student ID: _
Date Assigned:
Monday, March 28, 2016
Date Due:
Monday, April 4, 2016, 5:00 PM (drop box #1 in the OPG bu

Faculty of Engineering and Applied Science
MECE 2430U: Dynamics
Instructor: Dr. Haoxiang Lang
Assignment # 6
First Name: _ Last Name: _
Student ID: _
Date Assigned:
Monday, March 28, 2016
Date Due:
Monday, April 11, 2016, 5:00 PM (drop box #1 in the OPG b

Faculty of Engineering and Applied Science
MECE 2430U: Dynamics
Instructor: Dr. Calin Zamfirescu
Assignment #3 (individual mini-project) SOLLUTION
Marking: each question is 20; assignment is marked out of 100
Question 1
= 30,000 + 50 ; = 50; = 0
At any t

Faculty of Engineering and Applied Science
MECE 2430U: Dynamics
Instructor: Dr. Calin Zamfirescu
Assignment # _ 4
First Name: _
Last Name: _
Student ID: _
Date Assigned:
March 8th, 2014
Date Due:
March 14th, 2014 at 5 pm
Q1
Q2
Q3
Q4
Q5
Total
Remark: Each

Faculty of Engineering and Applied Science
MECE 2430U: Dynamics
Instructor: Dr. Calin Zamfirescu
Assignment # _ 3 _(individual mini-project)
First Name: _
Last Name: _
Student ID: _
Date Assigned:
February 13th, 2014
Date Due:
February 24th, 2014 at 5 pm

Faculty of Engineering and Applied Science
MECE 2430U: Dynamics
Instructor: Dr. Calin Zamfirescu
Assignment # _ 2 _
First Name: _
Last Name: _
Student ID: _
Date Assigned:
February 4th, 2014
Date Due:
February 13th, 2014
Q1
Q2
Q3
Q4
Q5
Total
Instructions

Assignment 1
MECE 2430U: Dynamics
Solution
1) A particle travels along a straight-line path such that in 4 s it moves from an initial position
sA = -8 m to position sB = +3 m. Then in another 5 s it moves from sB to sC = -6 m. Determine
the particles aver

Faculty of Engineering and Applied Science
MECE 2430U: Dynamics
Assignment # _ 2 _
First Name: _
Last Name: _
Student ID: _
Date Assigned:
February 4th, 2014
Date Due:
February 13th, 2014
Q1
Q2
Q3
Q4
Q5
Total
Instructions for completion:
Clearly write yo

MECE 2430 Dynamics
Instructor: Dr. Sayyed Ali Hosseini
Lecture #19
CH.17 (17.2 - 17.3)
ENGINEERING MECHANICS:DYNAMICS HIBBELER
Todays Objectives:
PLANAR KINETIC EQUATIONS OF MOTION: TRANSLATION
1. Apply the three equations of motion for a rigid body in
pl

MECE 2430 Dynamics
Instructor: Dr. Sayyed Ali Hosseini
Lecture #10
CH.14(14.5, 14.6)
ENGINEERING MECHANICS:DYNAMICS HIBBELER
CONSERVATIVE FORCES AND POTENTIAL ENERGY
AND CONSERVATION OF ENERGY
Todays Objectives:
1. Understand the concept of conservative f

MECE 2430 Dynamics
Instructor: Dr. Sayyed Ali Hosseini
Lecture #22
CH.18 (18.5)
ENGINEERING MECHANICS:DYNAMICS HIBBELER
Chapter 18: Planar Kinetics of a Rigid
Body Work and Energy
o Todays Objectives:
Determine the potential energy of conservative forces

MECE 2430 Dynamics
Instructor: Dr. Sayyed Ali Hosseini
Lecture #15
CH.16(16.1 16.3)
ENGINEERING MECHANICS:DYNAMICS HIBBELER
RIGID BODY MOTION: TRANSLATION & ROTATION
Todays Objectives :
Analyze the kinematics of a rigid body undergoing planar
translation