首页
网站开发
桌面应用
管理软件
微信开发
App开发
嵌入式软件
工具软件
数据采集与分析
其他
首页
>
> 详细
代写ENG3015、R编程设计代做
项目预算:
开发周期:
发布时间:
要求地区:
University of Exeter
ENG3015 Structural Dynamics
Year: 2023/24 and onwards
Coursework 1
Q1: Figure Q1 shows a structural frame with rigid cap beam AB vibrating horizontally. The
beam is supported vertically by three columns (AE, GF and BH) and restrained horizontally
by a system of horizontal steel tubes (BC and CD) supported by another vertical column (CI).
Apart from the steel tubes, all other structural members may be assumed not to deform
axially.
Figure Q1
a) Sketch the development of the equivalent SDOF system for horizontal vibration of
beam AB
b) Using the notation provided, derive expression for the undamped natural frequency
corresponding to the horizontal vibration of the cap beam.
c) Using the developed expression and the following design data, calculate the natural
frequency of this SDOF system in the horizontal direction
m’=12,000 kg/m
E=210 GPa
I=104170 cm4
D=0.5 m; d=0.4 m
h1=4 m; h2=6 m
l1=2 m; l2=4 m
2
Q2: The system shown in Figure Q2 may be assumed to have rigid levers, no mass and
frictionless pivot. For small vertical vibrations of the point mass:
Figure Q2
a) Derive expression for the damping ratio.
b) Derive expression for damped natural frequency.
c) Derive expression for the critical damping coefficient.
Note: all expressions should be given in terms of variables m, c and k, describing the physical
properties of the system, and p, q and r relating to the geometry of the system. There are no
specific numerical values associated with these six variables.
3
Q3: In a type approval test, a helicopter (Figure Q3) is dropped under gravity from a height,
ℎ, with its rotors stationary. The pilot's seat is mounted on springs of combined stiffness 𝑘,
and of dampers of combined rate 𝑐. The combined mass of the (dummy) pilot and seat is 𝑚.
Figure Q3
a) Using clear sketches and maximum 100 words, show that the equation of motion of the
pilot and seat after impact with the ground, which occurs at t=0 s, is:
𝑚𝑥̈(𝑡) + 𝑐𝑥̇(𝑡) + 𝑘𝑥(𝑡) = 0
with the following initial conditions: 𝑥(0) = −
𝑚𝑔
𝑘
and 𝑥̇(0) = √2𝑔ℎ, the positive
coordinate direction being as shown in Figure Q3. In the given equation of motion 𝑥(𝑡) is
the dynamic displacement from the static equilibrium position of mass 𝑚 after the
helicopter strikes the ground.
b) Consider the case where m=100 kg, k=2.5x105 N/m, c=3000 Ns/m and h=5 m. Using NDOF
software, calculate the maximum displacement, velocity and acceleration experienced by
the pilot after the helicopter strikes the ground. Present relevant annotated NDOF plots
indicating maximum values calculated during the first 1 s after the helicopter strikes the
ground.
c) Compare the acceleration calculated under b) with that which would be obtained without
dampers. Use a pair annotated plots NDOF for this comparison. Explain in no more than 50
words the effect of damping and lack of it for this particular structural dynamics design
problem.
d) What would be the maximum acceleration of the pilot if the spring stiffness were reduced
to 6x104 N/m with no dampers fitted? Use NDOF plots to compare the undamped responses
under c) and d). In no more than 50 words describe advantages and disadvantages of using a
softer spring?
1
University of Exeter
ENG3015 Structural Dynamics
Year: 2022/23 and onwards
Coursework 2
Q1: A two-storey frame is shown in Figure Q1. The horizontal beams are infinitely sMff
relaMve to the verMcal columns.
Figure Q1
Design data:
• Bending sMffness of columns: EI=81.35 MNm2
.
• Mass per unit length of the horizontal beams: m’=10,000 kg/m.
• SMffness of the horizontal spring restraining the top floor: k=50 MN/m.
• It can be assumed that damping raMo is 2% for all relevant modes of horizontal
vibraMon.
For the structural frame shown in Figure Q1:
a) Calculate the mass and sMffness matrices of this system.
b) Calculate the natural frequencies of the system.
c) Determine and sketch the unity-scaled 2nd mode shape of this system.
d) Calculate the modal mass corresponding to the unity-scaled 2nd mode shape calculated
in c) above.
e) Which modelling parameter needs changing and how to enable modelling of this system
in the NDOF so_ware, considering the limitaMons of that so_ware?
f) Introduce the assumpMon made in e), sketch the new system and using the same
degrees of freedom as shown Figure Q1 re-calculate:
i) mass and sMffness matrices of the system; check the calculaMons using NDOF so_ware.
2
ii) natural frequencies of the system; check the calculaMons using NDOF so_ware.
iii) unity scaled 2nd mode shape of this system; check the calculaMons using NDOF
so_ware.
iv) modal mass corresponding to the unity-scaled 2nd mode shape calculated; check the
calculaMons using NDOF so_ware.
g) Compare modal masses calculated under d) and under f-iv) and explain the difference, if
any. Which physical feature of the structure is causing the difference and why, if any?
3
Q2: A three-storey frame shown in Figure Q2 is subjected to the harmonic force . The
horizontal beams are infinitely sMff relaMve to the verMcal columns.
Figure Q2
.
Modal damping raMos for the system are: .
Using NDOF and EI=4.5x106 Nm2 answer following quesMons.
a) Calculate natural frequencies and unit normalised mode shapes.
b) Determine modal masses. Check the obtained modal mass for the 3rd mode by hand.
c) Plot the forced displacement response of the system in the first 15 s.
d) The forced displacement response plot produced under c) has some specific clearly
observable features which determine the type of the response. How is response
plofed called?
a. Transient response,
b. BeaMng response,
c. Resonant response?
Select one answer. Explain your answer referring to the relaMonship between the excitaMon
frequency and natural frequencies of the system.
University of Exeter
ENG3015 Structural Dynamics
Year: 2022/23 and onwards
Coursework 3
Figure Q3(a) shows a finite element model of a floor structure featuring six floor panels,
each panel being 8 m long and 4.5 m wide. Therefore, the total length of the floor plate is
27 m (6x4.5 m).
Figure Q3(a).
Figure Q3(b) shows modal properSes for the first four modes of vibraSon.
2
Figure Q3(b)
Using Appendix G - Concrete Society Technical Report 43 (2nd EdiSon) answer the following
quesSons related to the vibraSon serviceability of this floor structure.
a) Is this a low- or a high-frequency floor? Explain the reasoning behind your answer and
what kind of vibraSon response does this floor need to be design for under human
walking: transient, random, free or resonant vibraSon?
b) Calculate maximum response factor for verScal vibraSon at point 2 due to single person
walking at point 1 of this floor. Show all calculaSons and clearly state the assumpSons
made. Data needed for calculaSons:
• Pedestrian weight is 700 N.
• The minimum pacing rate is 1.4 Hz.
• The maximum pacing rate is 2.0 Hz.
• Modal damping raSo is 1.5% in all relevant modes of vibraSon.
• Assume that the walking path is 8m long across the floor through point 1.
Mode 1: f1=3.8Hz, m1=37,000kg Mode 2: f2=5.1Hz, m2=25,000kg
Mode 3: f3=7.1Hz, m3=20,000kg Mode 4: f4=9.0Hz, m4=18,000kg
3
• Mode shape amplitudes at point 1 are:
o For mode 1: 0.7
o For mode 2: -0.8
o For mode 3: 0.3
o For mode 4: -0.6
• Mode shape amplitudes at point 2 are:
o For mode 1: 1.0
o For mode 2: 0
o For mode 3: 0
o For mode 4: -0.5
c) Check your floor vibraSon response calculaSons using independently the ‘App G’ opSon
in the NDOF sodware. Submit screenshot of the acceleraSon response envelope as a
funcSon of the pacing frequency with annotated interpretaSon of the relevant maximum
response in terms of R-factor and compare with the calculaSons under b) above.
d) Can this floor be used as a workshop?
Note:
Some design data provided my not be needed in calculaSons. If any design data is missing,
make reasonable assumpSons and clearly state such assumpSons.
软件开发、广告设计客服
QQ:99515681
邮箱:99515681@qq.com
工作时间:8:00-23:00
微信:codinghelp
热点项目
更多
代写dts207tc、sql编程语言代做
2024-12-25
cs209a代做、java程序设计代写
2024-12-25
cs305程序代做、代写python程序...
2024-12-25
代写csc1001、代做python设计程...
2024-12-24
代写practice test preparatio...
2024-12-24
代写bre2031 – environmental...
2024-12-24
代写ece5550: applied kalman ...
2024-12-24
代做conmgnt 7049 – measurem...
2024-12-24
代写ece3700j introduction to...
2024-12-24
代做adad9311 designing the e...
2024-12-24
代做comp5618 - applied cyber...
2024-12-24
代做ece5550: applied kalman ...
2024-12-24
代做cp1402 assignment - netw...
2024-12-24
热点标签
mktg2509
csci 2600
38170
lng302
csse3010
phas3226
77938
arch1162
engn4536/engn6536
acx5903
comp151101
phl245
cse12
comp9312
stat3016/6016
phas0038
comp2140
6qqmb312
xjco3011
rest0005
ematm0051
5qqmn219
lubs5062m
eee8155
cege0100
eap033
artd1109
mat246
etc3430
ecmm462
mis102
inft6800
ddes9903
comp6521
comp9517
comp3331/9331
comp4337
comp6008
comp9414
bu.231.790.81
man00150m
csb352h
math1041
eengm4100
isys1002
08
6057cem
mktg3504
mthm036
mtrx1701
mth3241
eeee3086
cmp-7038b
cmp-7000a
ints4010
econ2151
infs5710
fins5516
fin3309
fins5510
gsoe9340
math2007
math2036
soee5010
mark3088
infs3605
elec9714
comp2271
ma214
comp2211
infs3604
600426
sit254
acct3091
bbt405
msin0116
com107/com113
mark5826
sit120
comp9021
eco2101
eeen40700
cs253
ece3114
ecmm447
chns3000
math377
itd102
comp9444
comp(2041|9044)
econ0060
econ7230
mgt001371
ecs-323
cs6250
mgdi60012
mdia2012
comm221001
comm5000
ma1008
engl642
econ241
com333
math367
mis201
nbs-7041x
meek16104
econ2003
comm1190
mbas902
comp-1027
dpst1091
comp7315
eppd1033
m06
ee3025
msci231
bb113/bbs1063
fc709
comp3425
comp9417
econ42915
cb9101
math1102e
chme0017
fc307
mkt60104
5522usst
litr1-uc6201.200
ee1102
cosc2803
math39512
omp9727
int2067/int5051
bsb151
mgt253
fc021
babs2202
mis2002s
phya21
18-213
cege0012
mdia1002
math38032
mech5125
07
cisc102
mgx3110
cs240
11175
fin3020s
eco3420
ictten622
comp9727
cpt111
de114102d
mgm320h5s
bafi1019
math21112
efim20036
mn-3503
fins5568
110.807
bcpm000028
info6030
bma0092
bcpm0054
math20212
ce335
cs365
cenv6141
ftec5580
math2010
ec3450
comm1170
ecmt1010
csci-ua.0480-003
econ12-200
ib3960
ectb60h3f
cs247—assignment
tk3163
ics3u
ib3j80
comp20008
comp9334
eppd1063
acct2343
cct109
isys1055/3412
math350-real
math2014
eec180
stat141b
econ2101
msinm014/msing014/msing014b
fit2004
comp643
bu1002
cm2030
联系我们
- QQ: 9951568
© 2021
www.rj363.com
软件定制开发网!