wo masses are connected by a light string that passes over a frictionless pulley, as shown below. The masses are m1 32 kg, and m2 = 7.51 kg. If the coefficient of friction between the incline and m2 is 0.232 and the angle of the incline 5 35.0°, find a) acceleration of the two masses, ɔ) the tension in the string, and :) the speed of each mass 2.11 s after being released from rest. 1) Also, determine what m2 would have to be in order to have the system accelerate in the direction opposite of what ou found in (a). Assume m, stays at the same.

Two masses are connected by a light string that passes over a frictionless pulley, as shown below. The masses are m₁ = 6.32 kg, and m₂ = 7.51 kg.  If the coefficient of friction between the incline and m₂ is 0.232 and the angle of the incline is 35.0°, find

(a) acceleration of the two masses,

(b) the tension in the string, and

(c) the speed of each mass 2.11 s after being released from rest.

(d) Also, determine what m₂ would have to be in order to have the system accelerate in the direction opposite of what you found in (a).  Assume m₁ stays at the same.

Note: this problem needs to be done using forces and FBDs - no credit will be given for doing it any other way.

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2 1 Friction

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Two masses are connected by a light string that passes over a frictionless pulley, as shown below. The masses are m1 6.32 kg, and m2 = 7.51 kg. If the coefficient of friction between the incline and m2 is 0.232 and the angle of the incline is 35.0°, find (a) acceleration of the two masses, (b) the tension in the string, and (c) the speed of each mass 2.11 s after being released from rest. (d) Also, determine what m2 would have to be in order to have the system accelerate in the direction opposite of what you found in (a). Assume m, stays at the same. Note: this problem needs to be done using forces and FBDS - no credit will be given for doing it any other way. 2 -Friction