1. The angled bar shown in Fig. P6-5 is supported by a pin at C and a cable at B. Draw the FBD for the bar (neglect weight). D A 30° C 30° Fig. P6-5 B 2. The cart shown in Fig. P6-11 has two rollers in contact with the frictionless inclined surface and is supported by a cable as shown. Draw the FBD for the cart, which has weight W acting at point G. Cable Fig. P6-11
1. The angled bar shown in Fig. P6-5 is supported by a pin at C and a cable at B. Draw the FBD for the bar (neglect weight). D A 30° C 30° Fig. P6-5 B 2. The cart shown in Fig. P6-11 has two rollers in contact with the frictionless inclined surface and is supported by a cable as shown. Draw the FBD for the cart, which has weight W acting at point G. Cable Fig. P6-11
International Edition---engineering Mechanics: Statics, 4th Edition
4th Edition
ISBN:9781305501607
Author:Andrew Pytel And Jaan Kiusalaas
Publisher:Andrew Pytel And Jaan Kiusalaas
Chapter7: Dry Friction
Section: Chapter Questions
Problem 7.36P: The coeffient of static friction between the uniform bar AB of weight W and the ground is 0.45. Find...
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Plz plz solve both parts within 10 minutes
![1.
The angled bar shown in Fig. P6-5 is supported by a pin at C and a cable at B. Draw the FBD for
the bar (neglect weight).
D
P
30°
C
30°
30°
Fig. P6-5
2.
The cart shown in Fig. P6-11 has two rollers in contact with the frictionless inclined surface and
is supported by a cable as shown. Draw the FBD for the cart, which has weight W acting at point G.
B
Cable
Fig. P6-11](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F55cb5191-da03-417a-8540-4c51a7967251%2F5d6c3f90-1fb3-4c59-a5bf-c6b7382a2a8e%2Fquocvn_processed.png&w=3840&q=75)
Transcribed Image Text:1.
The angled bar shown in Fig. P6-5 is supported by a pin at C and a cable at B. Draw the FBD for
the bar (neglect weight).
D
P
30°
C
30°
30°
Fig. P6-5
2.
The cart shown in Fig. P6-11 has two rollers in contact with the frictionless inclined surface and
is supported by a cable as shown. Draw the FBD for the cart, which has weight W acting at point G.
B
Cable
Fig. P6-11
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