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A trolley weighing W₁= 306.1725 N, a crate with Wc= 612.345 N, is being transported along a smooth concrete floor. The width of the crate is b= 513.7167 mm, and its height is 1617.6357 mm. The coefficients of friction between the crate and the trolley are µs = 0.2706 and µ= 0.2137. If a force P = 413.6236 N is applied at the handle of the trolley, determine whether the crate will slip or tip first. Include the free body diagram in every step and provide some explanations. d b P

A trolley weighing W₁= 306.1725 N, a crate with Wc= 612.345 N, is being transported along a smooth concrete floor. The width of the crate is b= 513.7167 mm, and its height is 1617.6357 mm. The coefficients of friction between the crate and the trolley are µs = 0.2706 and µ= 0.2137. If a force P = 413.6236 N is applied at the handle of the trolley, determine whether the crate will slip or tip first. Include the free body diagram in every step and provide some explanations. d b P

Elements Of Electromagnetics
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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A trolley weighing W₁-306.1725 N, a crate with Wc= 612.345 N, is being transported along a smooth concrete floor. The width of the crate is b= 513.7167 mm, and its height is 1617.6357 mm. The coefficients of friction between the crate and the trolley are µs = 0.2706 and μ = 0.2137. If a force P = 413.6236 N is applied at the handle of the trolley, determine whether the crate will slip or tip first. Include the free body diagram in every step and provide some explanations. d - b P
Transcribed Image Text:A trolley weighing W₁-306.1725 N, a crate with Wc= 612.345 N, is being transported along a smooth concrete floor. The width of the crate is b= 513.7167 mm, and its height is 1617.6357 mm. The coefficients of friction between the crate and the trolley are µs = 0.2706 and μ = 0.2137. If a force P = 413.6236 N is applied at the handle of the trolley, determine whether the crate will slip or tip first. Include the free body diagram in every step and provide some explanations. d - b P
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The 6 kg multiple pulley disc is configured as shown for an experiment. The disk is unbalanced with a radius of gyration kg = 50 cm about its mass center G and experiences a resisting torque of 0.3 Nm at pin C. Block A (mA= 0.845 kg) hangs off a rope wrapped around the 250 mm pulley on the right side. If the system is released from rest, (a) what is the angular acceleration of the disk in rad/s²? (b) Find the tension in the rope in Newtons. (c) You are tasked with doubling the acceleration solved in (a) by hanging another block off the 150 mm pulley. Determine the mass of the block in kg necessary to achieve this. Indicate which side of the 150 mm pulley you should hang the second block form. Include free body diagram in every step and provide some explanations. 8cm G 150mm 250mm Block A
Transcribed Image Text:The 6 kg multiple pulley disc is configured as shown for an experiment. The disk is unbalanced with a radius of gyration kg = 50 cm about its mass center G and experiences a resisting torque of 0.3 Nm at pin C. Block A (mA= 0.845 kg) hangs off a rope wrapped around the 250 mm pulley on the right side. If the system is released from rest, (a) what is the angular acceleration of the disk in rad/s²? (b) Find the tension in the rope in Newtons. (c) You are tasked with doubling the acceleration solved in (a) by hanging another block off the 150 mm pulley. Determine the mass of the block in kg necessary to achieve this. Indicate which side of the 150 mm pulley you should hang the second block form. Include free body diagram in every step and provide some explanations. 8cm G 150mm 250mm Block A
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