SECTION BQuestion 4(a)The double acting hydraulic cylinder shown in Fig. 4(a), receives hydraulic fluid with avelocity, vị, of 5 m/s at the port on the full bore end of the cylinder. The diameter of this port is0.6 cm and the piston diameter is 2.8 cm. The double acting cylinder has to deliver a staticthrust of 2156 N. Calculate the motor power required to drive this pump.A,A.Fig. 4(a)(b)An industrial hydraulic application is represented by the hydraulic circuit diagram shown inFig. 4(b). It can be assumed that the cracking pressure for 1V3 is very low and that bothcylinders require approximately the same pressure for retraction. Answer each of the followingfor the circuit shown in Fig. 4(b):(i)Neatly sketch the displacement step diagram with signal lines.(ii)Briefly describe the initial status of the system.(iii)What is the function of valve 1V2?(iv)Using the displacement step diagram, describe the operational events for one cycle ofthe actuators.1 A2 A1V2 T1V31V1oz1Fig. 4(b)Page 6 of 16

we have to determine the power required to push the cyliner

The double acting hydraulic cylinder shown in Fig. 4(a), receives hydraulic fluid with a velocity, vi, of 5 m/s at the port on the full bore end of the cylinder. The diameter of this port is 0.6 cm and the piston diameter is 2.8 cm. The double acting cylinder has to deliver a static thrust of 2156 N. Calculate the motor power required to drive this pump.

The double acting hydraulic cylinder shown in Fig. 4(a), receives hydraulic fluid with a velocity, vi, of 5 m/s at the port on the full bore end of the cylinder. The diameter of this port is 0.6 cm and the piston diameter is 2.8 cm. The double acting cylinder has to deliver a static thrust of 2156 N. Calculate the motor power required to drive this pump.

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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