HAB P В µCG UBC If the picture does not load, click here. Three blocks are positioned on an incline of 0=17° as shown. A force of P is applied to Block C and a wire attaches Block A to the wall, preventing that block from moving. The mass of Block A is mA=35kg, the mass of Block B is mg=49kg, and the mass of Block C is mc-54kg. The coefficient of static friction between Block A and Block B is HAB=0.19, between Block B and Block C is HBc=0.28, and between Block C and the ground is µcG=0.37. Determine the maximum value of P before any slipping takes place. Write your answer for P in N Hint #1: Recall that the shear (tangential) force across a sliding surface can never exceed F = mu * N ion that one block slips AND a value units to 2 decimal places in the box below. Hint #2: You will need to find a value for P based on the co for P based on the condition that multiple blocks slip. The final answer will be the lesser of the two values. Values: HAB-0.19 mA=35kg 0=17° HBC=0.28 mg-49kg UCG=0.37 mc-54kg

HAB P В µCG UBC If the picture does not load, click here. Three blocks are positioned on an incline of 0=17° as shown. A force of P is applied to Block C and a wire attaches Block A to the wall, preventing that block from moving. The mass of Block A is mA=35kg, the mass of Block B is mg=49kg, and the mass of Block C is mc-54kg. The coefficient of static friction between Block A and Block B is HAB=0.19, between Block B and Block C is HBc=0.28, and between Block C and the ground is µcG=0.37. Determine the maximum value of P before any slipping takes place. Write your answer for P in N Hint #1: Recall that the shear (tangential) force across a sliding surface can never exceed F = mu * N ion that one block slips AND a value units to 2 decimal places in the box below. Hint #2: You will need to find a value for P based on the co for P based on the condition that multiple blocks slip. The final answer will be the lesser of the two values. Values: HAB-0.19 mA=35kg 0=17° HBC=0.28 mg-49kg UCG=0.37 mc-54kg

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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Processing of Polymer Matrix Composites

The polymer matrix composite is described as a composite material that contains some polymer in the form of either fibers or powder. Polymer matrix composites are also known in short as PMC's.

Question

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Kindly answer correctly.
The answer is 836.82 according to the book.

HAB
В
µCG
µBC
If the picture does not load, click here.
Three blocks are positioned on an incline of 0=17° as shown. A force of P is applied to Block C and
a wire attaches Block A to the wall, preventing that block from moving.
The mass of Block A is ma=35kg, the mass of Block B is mg=49kg, and the mass of Block C is
mc-54kg. The coefficient of static friction between Block A and Block B is HAB=0.19, between Block
B and Block C is HBC=0.28, and between Block C and the ground is µcG=0.37.
Determine the maximum value of P before any slipping takes place. Write your answer for P in N
units to 2 decimal places in the box below.
%3D
Hint #1: Recall that the shear (tangential) force across a sliding surface can never exceed F = mu * N
Hint #2: You will need to find a value for P based on the condition that one block slips AND a value
for P based on the condition that multiple blocks slip. The final answer will be the lesser of the two
values.
Values:
HAB-0.19
0=17°
mA=35kg
mg=49kg
HBC=0.28
mc=54kg
CG=0.37

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