A rubber block is placed between two rigid walls where a load of P = 65 kN is applied on top as shown. Considering the properties of the block below, determine the following: A. Pressure between the rubber and the wall (MPa) B. Direction of pressure between the rubber and the wall (T or C) B. Strain of side LM, include +/- sign (mm/mm) P D Properties of the rubber block: = 110 mm JK KL = 50 mm LM 150 mm V = 0.31 E = 3.45 L M FRONT VIEW
A rubber block is placed between two rigid walls where a load of P = 65 kN is applied on top as shown. Considering the properties of the block below, determine the following: A. Pressure between the rubber and the wall (MPa) B. Direction of pressure between the rubber and the wall (T or C) B. Strain of side LM, include +/- sign (mm/mm) P D Properties of the rubber block: = 110 mm JK KL = 50 mm LM 150 mm V = 0.31 E = 3.45 L M FRONT VIEW
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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![A rubber block is placed between two rigid walls where a load of P = 65 kN is applied on top as
shown. Considering the properties of the block below, determine the following:
A. Pressure between the rubber and the wall (MPa)
B. Direction of pressure between the rubber and the wall (T or C)
B. Strain of side LM, include +/- sign (mm/mm)
P
L
Properties of the rubber block:
JK 110 mm
KL = 50 mm
LM 150 mm
V = 0.31
E = 3.45
L
M
FRONT VIEW](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fcf06c3b2-5589-416a-92cb-31f24a9dfab6%2F6181774e-1a12-4ed3-8ecd-a1442cb150d7%2Fl0ogx9l_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A rubber block is placed between two rigid walls where a load of P = 65 kN is applied on top as
shown. Considering the properties of the block below, determine the following:
A. Pressure between the rubber and the wall (MPa)
B. Direction of pressure between the rubber and the wall (T or C)
B. Strain of side LM, include +/- sign (mm/mm)
P
L
Properties of the rubber block:
JK 110 mm
KL = 50 mm
LM 150 mm
V = 0.31
E = 3.45
L
M
FRONT VIEW
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