Answer step-wise with detailed explantions (a) A material point of mass m₁ = 7.4 kg is located on a inclined plane of an angle q = 26°, and is attached, by means of a rope inextensible, to another mass point m₂ = 3.8 kg; the floor area inclined is smooth. Calculate the tension of rope and acceleration of the two masses. (b) Atwood machine: two masses are connected together through an inextensible rope that flows without friction in the recess of a pulley. Calculate the acceleration of the two masses and the rope tension.
Answer step-wise with detailed explantions (a) A material point of mass m₁ = 7.4 kg is located on a inclined plane of an angle q = 26°, and is attached, by means of a rope inextensible, to another mass point m₂ = 3.8 kg; the floor area inclined is smooth. Calculate the tension of rope and acceleration of the two masses. (b) Atwood machine: two masses are connected together through an inextensible rope that flows without friction in the recess of a pulley. Calculate the acceleration of the two masses and the rope tension.
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Please Answer Q3 (a) and (b) step-wise with detailed explanations
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Transcribed Image Text:Q3 F
Answer step-wise with detailed explantions
(a) A material point of mass m₁ = 7.4 kg is located on a inclined
plane of an angle q = 26°, and is attached, by means of a rope
inextensible, to another mass point m₂ = 3.8 kg; the floor
area inclined is smooth. Calculate the tension of rope and
acceleration of the two masses.
(b)
Atwood machine: two masses are connected together through
an inextensible rope that flows without friction in the recess
of a pulley. Calculate the acceleration of the two masses and
the rope tension.
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