Spring Mass System-Material and Structures-Assignment, Exercises of Structures and Materials

This is assignment for Material and Structures course. To cover following points, Prof. Aparijita Singh assigned this task at Andhra University to engineering students: Spring, Mass, System, Constant, Rectangular, Pulse, Duration, Magnitude, Analytical, Expression, Response, Natural, Frequency, Cantilever, Cross-section, Beam

Typology: Exercises

2011/2012

Uploaded on 07/26/2012

raam
raam 🇮🇳

4.4

(14)

90 documents

1 / 2

Toggle sidebar

This page cannot be seen from the preview

Don't miss anything!

bg1
16.20 Handed Out: Lecture 46
HOME ASSIGNMENT #11
Practice Problems
1. A single spring-mass system (mass of m and spring constant of k) is subjected
to a rectangular pulse of duration Tp and magnitude Fo.
q
k m
(a) Determine an analytical expression for the response of the system.
(HINT: Model the rectangular pulse as the superposition of two step
functions.)
F F
Fo
-Fo
Tp
F +
Fo
=
t t
t
Tp Tp
(b) Determine and plot the response for various ratios of the pulse duration
to the natural frequency of the system [e.g. Tp/(2π/ω) = 0.1, 0.2, 0.5, 1, 2, 5,
10]. Comment on the results.
docsity.com
pf2

Partial preview of the text

Download Spring Mass System-Material and Structures-Assignment and more Exercises Structures and Materials in PDF only on Docsity!

16.20 Handed Out: Lecture 46

HOME ASSIGNMENT

Practice Problems

  1. A single spring-mass system (mass of m and spring constant of k) is subjected to a rectangular pulse of duration Tp and magnitude Fo.

q

k

m

(a) Determine an analytical expression for the response of the system. (HINT: Model the rectangular pulse as the superposition of two step functions.)

F F

Fo

-Fo

Tp

F

Fo

t (^) t t Tp Tp

(b) Determine and plot the response for various ratios of the pulse duration to the natural frequency of the system [e.g. Tp/(2π/ω) = 0.1, 0.2, 0.5, 1, 2, 5, 10]. Comment on the results.

docsity.com

16.20 Home Assignment #11 Page 2 Fall, 2002

  1. A cantilevered aluminum beam (E = 10.0 Msi, ρ = 0.1 lbs/in^3 ) has a square cross-section with 1-inch sides and is a total of 60 inches long. Represent this as a three-mass system and determine the natural frequencies and associated mode shapes.

x

z 60”

z 20” 20” 20”

  1. A simply-supported aluminum beam (E = 10.0 Msi, ρ = 0.1 lbs/in^3 ) has a rectangular cross section of 0.4 inches by 0.8 inches and is 36 inches long. The beam has a force [F(t) = (5.0 lbs) sin Ωt ] applied at its center.

CROSS-SECTION

x

z F(t)

(a) Determine the natural frequencies and the mode shapes for the first three modes.

(b) Write out the normal equations of motion using the first three modes.

(c) Using these modes, determine the general center deflection of the beam as well as the contribution of each mode to this overall response.

(d) Plot the individual modal amplitude and the total amplitude versus forcing frequency Ω.

x

docsity.com