Two blocks are connected to point A which is supported by two ropes as shown. One rope connects point from the ceiling. The mass of A to point B . The second rope is at an angle 0 = sspoft kg, and the mass of block 2, m, = kg. Resolve the tension holding both blocks into block 1, m₁ force in each rope AB and AC. 113 (2.3, 5.2) 19 71° 0 (8.2, 6.99) Block 1 Block 2 B

Two blocks are connected to point A which is supported by two ropes as shown. One rope connects point from the ceiling. The mass of A to point B . The second rope is at an angle 0 = sspoft kg, and the mass of block 2, m, = kg. Resolve the tension holding both blocks into block 1, m₁ force in each rope AB and AC. 113 (2.3, 5.2) 19 71° 0 (8.2, 6.99) Block 1 Block 2 B

International Edition---engineering Mechanics: Statics, 4th Edition

4th Edition

ISBN:9781305501607

Author:Andrew Pytel And Jaan Kiusalaas

Publisher:Andrew Pytel And Jaan Kiusalaas

Chapter4: Coplanar Equilibrium Analysis

Section: Chapter Questions

Problem 4.84P: The pulley-cable system supports the 150-lb weight. The weights of the pulleys and the horizontal...

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Two blocks are connected to point A which is supported by two ropes as shown. One rope connects point
from the ceiling. The mass of
A
to point B
. The second rope is at an angle 0 =
sspoft
kg, and the mass of block 2, m, = kg. Resolve the tension holding both blocks into
block 1, m₁
force in each rope AB and AC.
113
(2.3, 5.2)
19
71°
0
(8.2, 6.99)
Block
1
Block 2
B

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