Consider the haulage depicted in Figure 1. Two trolleys are connected by ropeover a pulley to which a torque is applied to achieve motion up and down theslope.From the information supplied in the sketch, determine the torque to be appliedto the pulley in order to give the masses an acceleration of 0.7 m/s? in thedirection shown. The mass of the pulley is given as 50 kg, the radius of gyrationof the pulley is given as 0.2 m about its axis and the pulley diameter is 0.5 m.Calculate:3.1Draw a free-body diagram to show forces acting on the system3.2The tension in the rope due to a 1200 kg mass3.3The tension in the rope due to a 300 kg mass3.4The moment of Inertia in kgm?3.5The torque produced by the drum.a= 0.7 m/s1200 kg300 kg4- 0,7H-0.1530

Answered: Image /qna-images/answer/739cd1dc-33cd-4019-89ac-d3b069d7ef51.jpg

Haulages) Consider the haulage depicted in Figure 1. Two trolleys are connected over a pulley to which a torque is applied to achieve motion up and do slope. From the information supplied in the sketch, determine the torque to be to the pulley in order to give the masses an acceleration of 0.7 m/s direction shown. The mass of the pulley is given as 50 kg, the radius of g of the pulley is given as 0.2 m about its axis and the pulley diameter is 0.5 Calculate: 3.1 Draw a free-body diagram to show forces acting on the system 3.2 The tension in the rope due to a 1200 kg mass 3.3 The tension in the rope due to a 300 kg mass 3.4 The moment of Inertia in kgm? 3.5 The torque produced by the drum.

Haulages) Consider the haulage depicted in Figure 1. Two trolleys are connected over a pulley to which a torque is applied to achieve motion up and do slope. From the information supplied in the sketch, determine the torque to be to the pulley in order to give the masses an acceleration of 0.7 m/s direction shown. The mass of the pulley is given as 50 kg, the radius of g of the pulley is given as 0.2 m about its axis and the pulley diameter is 0.5 Calculate: 3.1 Draw a free-body diagram to show forces acting on the system 3.2 The tension in the rope due to a 1200 kg mass 3.3 The tension in the rope due to a 300 kg mass 3.4 The moment of Inertia in kgm? 3.5 The torque produced by the drum.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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