An 8-m long horizontal boom with a mass of 100 kg (w = 981 N) supports a 2,000 kg load (W = 19,620 N) as shown in the figure. A pin exerts a force on the boom at the left end of the boom, P. Find: a.) The vertical component of the pin force, Fv b.) The horizontal component of the pin force, Fr c.) The tension on the cable, T P 0 = 40° 1 = 8.0m 2,000 kg
An 8-m long horizontal boom with a mass of 100 kg (w = 981 N) supports a 2,000 kg load (W = 19,620 N) as shown in the figure. A pin exerts a force on the boom at the left end of the boom, P. Find: a.) The vertical component of the pin force, Fv b.) The horizontal component of the pin force, Fr c.) The tension on the cable, T P 0 = 40° 1 = 8.0m 2,000 kg
University Physics Volume 1
18th Edition
ISBN:9781938168277
Author:William Moebs, Samuel J. Ling, Jeff Sanny
Publisher:William Moebs, Samuel J. Ling, Jeff Sanny
Chapter12: Static Equilibrium And Elasticity
Section: Chapter Questions
Problem 42P: A 12.0m boom, of a crane lifting a 3000kg load is shown below. The center of mass of the boom is at...
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![An 8-m long horizontal boom with a mass of 100 kg (w = 981 N)
supports a 2,000 kg load (W = 19,620 N) as shown in the figure.
A pin exerts a force on the boom at the left end of the
boom, P.
Find:
a.) The vertical component of the pin force, Fv
b.) The horizontal component of the pin force, Fr
c.) The tension on the cable, T
P
0 = 40°
1 = 8.0m
2,000 kg](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F8a686b74-d719-40ce-b01f-b243a40414aa%2Fa63726a4-5a2c-47d9-adb5-e34eae5279cd%2Flm4322_processed.png&w=3840&q=75)
Transcribed Image Text:An 8-m long horizontal boom with a mass of 100 kg (w = 981 N)
supports a 2,000 kg load (W = 19,620 N) as shown in the figure.
A pin exerts a force on the boom at the left end of the
boom, P.
Find:
a.) The vertical component of the pin force, Fv
b.) The horizontal component of the pin force, Fr
c.) The tension on the cable, T
P
0 = 40°
1 = 8.0m
2,000 kg
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