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Find the maximum friction force and determine whether the block is in equilibrium when e = 20° and P = 600 N. 1.2 kN Hs = 0.35 H = 0.25 446.5 N, Block is in equilibrium 446.5 N, Block is not in equilibrium 456.5 N, Block is in equilibrium 456.5 N, Block is not in equilibrium 466.5 N, Block is in equilibrium 466.5 N, Block is not in equilibrium

Find the maximum friction force and determine whether the block is in equilibrium when e = 20° and P = 600 N. 1.2 kN Hs = 0.35 H = 0.25 446.5 N, Block is in equilibrium 446.5 N, Block is not in equilibrium 456.5 N, Block is in equilibrium 456.5 N, Block is not in equilibrium 466.5 N, Block is in equilibrium 466.5 N, Block is not in equilibrium

International Edition---engineering Mechanics: Statics, 4th Edition
International Edition---engineering Mechanics: Statics, 4th Edition
4th Edition
ISBN:9781305501607
Author:Andrew Pytel And Jaan Kiusalaas
Publisher:Andrew Pytel And Jaan Kiusalaas
Chapter10: Virtual Work And Potential Energy
Section: Chapter Questions
Problem 10.50P
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Find the maximum friction force and determine whether the block is in equilibrium when e = 20° and P = 600 N. 1.2 kN Hs = 0.35 H = 0.25 O 446.5 N, Block is in equilibrium O 446.5 N, Block is not in equilibrium O 456.5 N, Block is in equilibrium O 456.5 N, Block is not in equilibrium O 466.5 N, Block is in equilibrium O 466.5 N, Block is not in equilibrium
Transcribed Image Text:Find the maximum friction force and determine whether the block is in equilibrium when e = 20° and P = 600 N. 1.2 kN Hs = 0.35 H = 0.25 O 446.5 N, Block is in equilibrium O 446.5 N, Block is not in equilibrium O 456.5 N, Block is in equilibrium O 456.5 N, Block is not in equilibrium O 466.5 N, Block is in equilibrium O 466.5 N, Block is not in equilibrium
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