Assume m₁ = 1.2 kg and m₂ = 1.5 kg. Neglect any rotational and frictional effect of the pulley. Assume the masses are released from rest. Find: (a) the acceleration a and the tension T experienced by m₁ and m₂ using Newton's 2nd Law of Motion; (b) the final velocities v₁ of m₁ and v₂ of m₂ when m₂ has descended 20 cm using Kinematics; (c) the

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3.
Consider the Atwood's machine given below:
m₁
m₂
Assume m₁ = 1.2 kg and m₂ = 1.5 kg. Neglect any rotational and frictional effect of the
pulley. Assume the masses are released from rest. Find: (a) the acceleration a and the
tension T experienced by m₁ and m₂ using Newton's 2nd Law of Motion; (b) the final
velocities v₁ of m₁ and v₂ of m₂ when m₂ has descended 20 cm using Kinematics; (c) the
final speeds v₁ of m₁ and v₂ of m2 when m₂ has descended 20 cm using the Work-
Energy Theorem, and (d)) the final speeds v₁ of m₁ and v2 of m2 when m2 has
descended 20 cm using the Conservation of Mechanical Energy.
ANSWER ONLY A & B
Transcribed Image Text:3. Consider the Atwood's machine given below: m₁ m₂ Assume m₁ = 1.2 kg and m₂ = 1.5 kg. Neglect any rotational and frictional effect of the pulley. Assume the masses are released from rest. Find: (a) the acceleration a and the tension T experienced by m₁ and m₂ using Newton's 2nd Law of Motion; (b) the final velocities v₁ of m₁ and v₂ of m₂ when m₂ has descended 20 cm using Kinematics; (c) the final speeds v₁ of m₁ and v₂ of m2 when m₂ has descended 20 cm using the Work- Energy Theorem, and (d)) the final speeds v₁ of m₁ and v2 of m2 when m2 has descended 20 cm using the Conservation of Mechanical Energy. ANSWER ONLY A & B
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