The smooth inclined surface makes an angle of 42° with the horizontal and the Block on the incline has a mass of 6.7kg find the mass of the hanging Block m that will cause the system to be in equilibrium (the pulley is assumed to be ideal)
Added by Stephen C.
Step 1
First, we need to understand that in equilibrium, the forces acting on the system are balanced. This means that the force pulling the block down the incline is equal to the force pulling the hanging block down. Show more…
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Two blocks are connected by a string, as shown in FIGURE 6-44. The smooth inclined surface makes an angle of $42^{\circ}$ with the horizontal, and the block on the incline has a mass of 6.7 $\mathrm{kg}$ . Find the mass of the hanging block that will cause the system to be in equilibrium. The pulley is assumed to be ideal.)
A block of mass m is pulled via a pulley at a constant velocity along a surface inclined at an angle of θ=48 degrees. The coefficient of kinetic friction is μk = 0.13 between the block and the surface. Determine the pulling force F.
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