Determine the smallest and largest value of WB for which the system is in equilibrium, refer figure.

4.C] Knowing that WA = 80N and θ = 400, Determine the smallest and largest value of WB for which the system is in equilibrium, refer fig. Q4 (c). Take µs = 0.35 and µk = 0.25.

4.C] Knowing that WA = 80N and θ = 400, Determine the smallest and largest value of WB for which the system is in equilibrium, refer fig. Q4 (c). Take µs = 0.35 and µk = 0.25.

Answer:-

4.C] Knowing that WA = 80N and θ = 400, Determine the smallest and largest value of WB for which the system is in equilibrium, refer fig. Q4 (c). Take µs = 0.35 and µk = 0.25.
4.C] Knowing that WA = 80N and θ = 400, Determine the smallest and largest value of WB for which the system is in equilibrium, refer fig. Q4 (c). Take µs = 0.35 and µk = 0.25.

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