Posted: December 21st, 2014

Simulation-Assignment (Coursework) Spring Suspended Mass

Simulation-Assignment (Coursework) Spring Suspended Mass

Project description
include:
-building the Simulink models
-doing the simulation(with graphs)and answering the question
-photos from the screen in the report(simulation graph)

The program of simulation must be 2009 edition

EAT235 Simulation – Assignment (Coursework 1 of 1)
Spring Suspended Mass
Hand-out Date : 4th November 2014
Hand-in Date : 6th January 2015
The assignment requires the submission of a report detailing your solutions to the
following tasks and contributes 100% to your overall module mark. It should include a
disk with all your simulation files upon it with instructions on how to run it in the
appendix. The marks shown on the main assignment indicate the maximum possible
marks that each element contributes to the final mark and the mark awarded will depend
upon the quality of your findings and their reporting. Further break-down of the mark
allocation is provided in the attached marking scheme.
The finished report should be submitted to the resource centre (Prospect Building, St
Peter’s) on or before the stipulated hand-in date.
Whilst it is expected that you will use a variety information sources to complete
your research it must be presented in your own words and not taken directly from any
other source. All sources you have used in your search must be clearly and appropriately
referenced using the Harvard referencing system. Using sources which have not been
appropriately referenced or taking any data directly from a source and included in your
work will be regarded as plagiarism and may result in you failing this part of the report
or even the whole module. It is acceptable to use photographs and/or diagrams from
other sources, where appropriate, but these must be properly referenced. Quotations
from external sources must be less than 200 words in total for any section of your report.
Assignment : Spring Suspended Mass
Zero Position Reference (x = 0)
mass (
KS
The sprung mass system shown opposite
is an important physical case study in
simple harmonic motion. Assuming that
the applied force, F , is purely due to
gravity and that the acceleration due to
gravity is 10m/s2 then :
x
FS
M
F
Section A
You are given that the differential equation that describes the above systems dynamic behaviour
is
K 
 1 
&x& =   F −  S  x
M 
M 
1)
Implement a Simulink model of the above equation and, assuming that it is possible to
step change the applied force by instantaneously adding an extra mass, M* of 0.5kg,
evaluate its step response. You are given that the original mass, M, is 0.5kg and that the
spring stiffness, KS, is 25 kg/s2.
[25 Marks]
2)
The response obtained in 2 above should be of the form
x = A sin (ωt )
where A and ω are constants which are functions of the system variables KS and the total
applied mass MT . Assuming that the initial mass ( and hence the initial conditions) is
zero (and therefore MT = M*), use your simulation to evaluate the relationships that
define
i)
A ( peak to peak )
ii)
ω ( Note that ω = 2π/Τ where T is the period of the sine wave in seconds)
[25Marks]
Section B
In practice damping occurs due to frictional forces and therefore the oscillation amplitude
decays with time :
1)
Show how the differential equation provided in Section A can be adapted to allow
for this constant damping ( with damping coefficient b kg/s ) by developing the
new differential equation from first principles.
[10 marks]
2)
Evaluate what value of damping is present if in an experiment the recorded
oscillations decayed exponentially with a time constant, τ, of 5 seconds. You may
assume the simulation parameters used in Section A part 1 and that the decay
amplitude is expressed via
Ae −t / τ sin(ωt )
[15 marks]
3)
Use your simulation to evaluate an expression that relates the damping constant,
τ, to the system parameters (again assume M = 0 initially).
[15 marks]
4)
What other observations can be seen in the simulation when damping is included?
[10 marks]
Dr. I. Fletcher
2014
Marking Scheme :
The report is to provide a detailed explanation of the simulations/tests performed as
outlined in the above assignment. The following information provides a greater
breakdown into how the marks are to be allocated for each section of work. As stipulated
previously the marks shown below indicate the maximum possible marks attainable and
the actual mark awarded will depend upon the quality of your findings and their
reporting.
Section A
Max Marks (%)
1.
Basic Model Structure/Labelling
Input Stimulus implementation
Initial Conditions implementation
Plot Quality/Accuracy/Description
10
5
5
5
2.
Determination of A – Methodology/Analysis
Determination of ω – Methodology/Analysis
Research Back-Up
10
10
5
Section B
1.
Differential Equation Development from first principles
10
2.
Methodology used to Determine necessary value of b
Demonstrating the required Damping Levels via plot(s)
10
5
3.
Determination of τ – Methodology/Analysis
Research Back-Up
10
5
4.
Comments/Observations identified/Research
10
Total 100%

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