Two blocks joined by a single pin are subjected to a pulling force of P = 250 Ib. The pin has a diameter of 0.25 in and the dimensions of the blocks with respect to the figure below are listed below. a = 2.42 in b = 1.52 in C = 1.5 in ti = 0.89 in t2 = 1.2 in Note that the dimensions b and c represent the distance from the edge of the block to the middle of the pin t, 1 a Vinter201920-Engr220-001/images/9de8f780-b478-3fb6-91f7-bd1015381538_fafc4bb4-e5d Image is not drawn to scale. Determine the following: The maximum normal stress in the top (light) block : The maximum normal stress in the bottom (dark) block : The tear-out shear stress in the top (light) block : The tear-out shear stress in the bottom (dark) block : The shear stress in the pin :
Two blocks joined by a single pin are subjected to a pulling force of P = 250 Ib. The pin has a diameter of 0.25 in and the dimensions of the blocks with respect to the figure below are listed below. a = 2.42 in b = 1.52 in C = 1.5 in ti = 0.89 in t2 = 1.2 in Note that the dimensions b and c represent the distance from the edge of the block to the middle of the pin t, 1 a Vinter201920-Engr220-001/images/9de8f780-b478-3fb6-91f7-bd1015381538_fafc4bb4-e5d Image is not drawn to scale. Determine the following: The maximum normal stress in the top (light) block : The maximum normal stress in the bottom (dark) block : The tear-out shear stress in the top (light) block : The tear-out shear stress in the bottom (dark) block : The shear stress in the pin :
Mechanics of Materials (MindTap Course List)
9th Edition
ISBN:9781337093347
Author:Barry J. Goodno, James M. Gere
Publisher:Barry J. Goodno, James M. Gere
Chapter1: Tension, Compression, And Shear
Section: Chapter Questions
Problem 1.8.5P: The Force in the brake cable of the V-brake system shown in the figure is T — 45 lb. The pivot pin...
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![Two blocks joined by a single pin are subjected to a pulling force of P = 250 Ib. The pin has a diameter of 0.25 in and the
dimensions of the blocks with respect to the figure below are listed below.
a = 2.42 in
b = 1.52 in
C = 1.5 in
ti = 0.89 in
t2 = 1.2 in
Note that the dimensions b and c represent the distance from the edge of the block to the middle of the pin
t, 1
a
Vinter201920-Engr220-001/images/9de8f780-b478-3fb6-91f7-bd1015381538_fafc4bb4-e5d
Image is not drawn to scale.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F490eb524-86d1-4946-8f41-8e5af72ab936%2F5044aab7-99a2-49ae-b390-9dc2b8e10879%2F4k89ipl.jpeg&w=3840&q=75)
Transcribed Image Text:Two blocks joined by a single pin are subjected to a pulling force of P = 250 Ib. The pin has a diameter of 0.25 in and the
dimensions of the blocks with respect to the figure below are listed below.
a = 2.42 in
b = 1.52 in
C = 1.5 in
ti = 0.89 in
t2 = 1.2 in
Note that the dimensions b and c represent the distance from the edge of the block to the middle of the pin
t, 1
a
Vinter201920-Engr220-001/images/9de8f780-b478-3fb6-91f7-bd1015381538_fafc4bb4-e5d
Image is not drawn to scale.
![Determine the following:
The maximum normal stress in the top (light) block :
The maximum normal stress in the bottom (dark) block :
The tear-out shear stress in the top (light) block :
The tear-out shear stress in the bottom (dark) block :
The shear stress in the pin :](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F490eb524-86d1-4946-8f41-8e5af72ab936%2F5044aab7-99a2-49ae-b390-9dc2b8e10879%2Fj8wcud9.jpeg&w=3840&q=75)
Transcribed Image Text:Determine the following:
The maximum normal stress in the top (light) block :
The maximum normal stress in the bottom (dark) block :
The tear-out shear stress in the top (light) block :
The tear-out shear stress in the bottom (dark) block :
The shear stress in the pin :
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