(1) cord A 60° B JIN G 8 JIN C bbck: W₁ = TBD :Sassume it's uniform. (→ 6 = cent of gray) 6: W²₁₂ = 8 16 Be = will cancel out friction: µg = 0,40 (at all three sites of friction) Targest Value consistent with equilibriun uniform A an rigid red, BC, is positioned as shown, and is connected by. in extensible cord to a block A as shown. Find the largest value of WA that is consistent with equilibrium, assuming friction = 0.40 at all three "sites" of friction, A, B, and C. You a coefficient of static may treat the block as a rigid body. This is an particle, but you'll need to treat the rod as a impending sliding problem. (The pulley is frictionless.)

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(₁) cord A 60° B JIN 60⁰ JIN с bbck: W₁ = TBD Tod: Sassume it's uniform (→G = cant of gray) W. BC 8 16 = will cancel out friction: Ms = 0,40 (at all three sites of friction) Targest Value of Wp consistent with equilibrion uniform an A rigid red, BC, is positioned as shown, and is connected by. ^ in extensible cord to a block A as shown. Find the largest value of WA a coefficient of static that is consistent with equilibrium, assuming friction treat the black as a Mg = 0.40 at all three "sites" of friction, A, B, and C. You particle, but you'll need to treat the rod as a rigid body. This is an impending sliding problem. (The pulley is frictionless.) may