4G:Emoodle.nct.edu.om1 my youuuun1. A massless rope that run over africtionless pulley as shown in the figure. If M₁= 4 Kg and M₂ = 9.5 Kg,M₁M₂Part A:Calculate thea) acceleration produced in the pulley in (m/s²)b) tension in the rope in Newton (N) ::Part B:If the masses start moving from rest after 0.8 s,calculate,c) the distance travelled by the mass M₁ in (m)d) the velocity with which the mass M₂ willmove in 0.8s, (m/s):(e) The direction in which M₁ and M₂ move willbe+1:10 I. 4G:moodle.nct.edu.om1. A Roller Coaster showing in the picturebellow of mass of M = 144 Kg is movingthrough the 3 hills until the end of the rid. if thefirst hill has Hight of H1=21 m, the second hillH2 = 16 m and the Third hill H3= 11 m.calculate the following:1.0cm-1.0mtia) Potential energy at the maximum height (firsthill) in (J) :b) The Kinetic Energy in the second hill ::c) the velocity of the car in the third hill ::d) The velocity of the car at the end of the rid ::(e) Potential energy at the end of the hall (J) :1:101६६

Answered: Image /qna-images/answer/eb54cf60-60f4-4fbe-9704-cd60bfe01a54.jpg

1. A massless rope that run over a frictionless pulley as shown in the figure. If M₁ = 4 Kg and M₂ = 9.5 Kg, M₁ M₂ Part A: Calculate the a) acceleration produced in the pulley in (m/s²) b) tension in the rope in Newton (N) :: Part B: If the masses start moving from rest after 0.8 s, calculate, c) the distance travelled by the mass M₁ in (m) d) the velocity with which the mass M₂ will move in 0.8s, (m/s): (e) The direction in which M₁ and M₂ move will be

1. A massless rope that run over a frictionless pulley as shown in the figure. If M₁ = 4 Kg and M₂ = 9.5 Kg, M₁ M₂ Part A: Calculate the a) acceleration produced in the pulley in (m/s²) b) tension in the rope in Newton (N) :: Part B: If the masses start moving from rest after 0.8 s, calculate, c) the distance travelled by the mass M₁ in (m) d) the velocity with which the mass M₂ will move in 0.8s, (m/s): (e) The direction in which M₁ and M₂ move will be

Glencoe Physics: Principles and Problems, Student Edition

1st Edition

ISBN:9780078807213

Author:Paul W. Zitzewitz

Publisher:Paul W. Zitzewitz

Chapter7: Gravitation

Section: Chapter Questions

Problem 75A

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