978-0073398242 Chapter 9 Solution Manual Part 18

subject Type Homework Help
subject Pages 9
subject Words 1260
subject Authors Brian Self, David Mazurek, E. Johnston, Ferdinand Beer, Phillip Cornwell

Unlock document.

This document is partially blurred.
Unlock all pages and 1 million more documents.
Get Access
page-pf1
PROBLEM 9.122
Determine by direct integration the mass moment of inertia with
respect to the x axis of the tetrahedron shown, assuming that it has
a uniform density and a mass m.
page-pf2
PROBLEM 9.122 (Continued)
page-pf3
PROBLEM 9.123
Determine by direct integration the mass moment of inertia with
respect to the y axis of the tetrahedron shown, assuming that it has
a uniform density and a mass m.
page-pf4
PROBLEM 9.123 (Continued)
page-pf5
Copyright © McGraw-Hill Education. Permission required for reproduction or display.
PROBLEM 9.124
Determine by direct integration the mass moment of inertia and
the radius of gyration with respect to the x axis of the paraboloid
shown, assuming that it has a uniform density and a mass m.
page-pf6
PROBLEM 9.125
A thin rectangular plate of mass m is welded to a vertical shaft AB as
shown. Knowing that the plate forms an angle
with the y axis,
determine by direct integration the mass moment of inertia of the
plate with respect to (a) the y axis, (b) the z axis.
page-pf7
PROBLEM 9.125 (Continued)
1(4sin)
page-pf8
PROBLEM 9.126*
A thin steel wire is bent into the shape shown. Denoting the mass per
unit length of the wire by m, determine by direct integration the mass
moment of inertia of the wire with respect to each of the coordinate
axes.
page-pf9
PROBLEM 9.126* (Continued)
page-pfa
PROBLEM 9.127
Shown is the cross section of an idler roller. Determine its
mass moment of inertia and its radius of gyration with respect
to the axis AA. (The specific weight of bronze is 0.310 lb/in
3
;
of aluminum, 0.100 lb/in
3
; and of neoprene, 0.0452 lb/in
3
.)

Trusted by Thousands of
Students

Here are what students say about us.

Copyright ©2022 All rights reserved. | CoursePaper is not sponsored or endorsed by any college or university.