massless cord around a massless and frictionless pulley as shown below. Both blocks move in a plane parallel to the incline of angle 6. All surfaces are considered to be rough with a cocfficient of kinctic friction 4. A force F, also parallel to the incline of angle 6, is applied to the lower block (m2) which causes the lower block to accelerate down the incline while the upper block (m) accelerates with the same magnitude up the incline. A block of mass m, is placed on top of a block of mass m2 and connected with a m, m, (b) Apply Newton's Second Law of Motion to the x-component forces and the first condition for equilibrium to the y-component forces acting on the upper block, m. (a) Draw a free-body diagram for cach block. (c) Apply Newton's Second Law of Motion to the x-component forces and the first condition for equilibrium to the y-component forces acting on the lower block, m2.

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massless cord around a massless and frictionless pulley as shown below. Both blocks move in a plane parallel to the incline of angle 6. All surfaces are considered to be rough with a cocfficient of kinetic friction g. A force F, also parallel to the incline of angle 6, is applied to the lower block (m2) which causes the lower block to accelerate down the incline while the A block of mass m, is placed on top of a block of mass m2 and connected with a upper block (m) accelerates with the same magnitude up the incline. m, m, (b) Apply Newton's Second Law of Motion to the x-component forces and the first condition for equilibrium to the y-component forces acting on the upper block, m. (a) Draw a free-body diagram for cach block. (c) Apply Newton's Second Law of Motion to the x-component forces and the first condition for equilibrium to the y-component forces acting on the lower block, m2.