The maximum bolt shear force in the given bracket connection by using an elastic analysis.

Question

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Answer 1

Question

Chapter 8, Problem 8.2.1P

To determine

The maximum bolt shear force in the given bracket connection by using an elastic analysis.

Expert Solution & Answer

Answer to Problem 8.2.1P

22.253 kips

Explanation of Solution

Given:

STEEL DESIGN W/ ACCESS, Chapter 8, Problem 8.2.1P

Calculation:

Determine the direct shear components:

Px=35(15)=9 kipsPy=45(15)=12 kipsPcx=94=2.25 kips →Pcy=124=3 kips ↓

Eccentricity:

ex=12 in.ey=9+1.5−4.5=6 in.

M=9(6)+12(12)=198 in−kips (Clockwise)

∑(x2+y2)=2[(4.5)2+(1.5)2]=45 in.2

Top bolt is critical.

x=0y=92=4.5 in.pmx=My∑(x2+y2)=198(4.5)45=19.8 kips →∑px=2.25+19.8=22.05 kips→∑py=3 kips ↓p=(∑px)2+(∑py)2=(22.05)2+(3)2=22.253 kips

Conclusion:

The maximum bolt shear force in the given bracket connection is 22.253 kips.

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Students have asked these similar questions

The bracket shown carries an eccentric load P at an eccentricity e=400mm. The column and bracket are A36 steel. Diameter of bolt is 22mm in standard holes. Assume that the column flange and the bracket are thick enough that single shear in the bolts will control. Shear capacity of one bolt is 45KN. a. Determine the polar moment of Inertia of the bolt group b. Determine the maximum load P that the bolted connection can support. C. Determine the direct load carried by the most critical bolt d. Determine the load due to moment carried by the most critical bolt. e = 400 mm 75 751 15 75 75 70 70

The frame is subjected to the load of 200 lb. Determine the average shear stress in the bolt at A. The bolt has a diameter of 0.25 inches and in single shear. A 2ft B .5ft -1.5ft-> 200lb

The bracket shown carries an eccentric load P at an eccentricity e=400mm. The column and bracket are A36 steel. Diameter of bolt is 22mm in standard holes. Assume that the column flange and the bracket are thick enough that single shear in the bolts will control. Shear capacity of one bollt is 45kN. a. Determine the polar moment of Inertia of the bolt group b. Determine the maximum load P that the bolted connection can support. c. Determine the direct load carried by the most critical bolt d. Determine the load due to moment carried by the most critical bolt. 75 751 75 75 75 1 70 70 e = 400 mm

Answer 2

Question

Chapter 8, Problem 8.2.1P

To determine

The maximum bolt shear force in the given bracket connection by using an elastic analysis.

Expert Solution & Answer

Answer to Problem 8.2.1P

22.253 kips

Explanation of Solution

Given:

STEEL DESIGN W/ ACCESS, Chapter 8, Problem 8.2.1P

Calculation:

Determine the direct shear components:

Px=35(15)=9 kipsPy=45(15)=12 kipsPcx=94=2.25 kips →Pcy=124=3 kips ↓

Eccentricity:

ex=12 in.ey=9+1.5−4.5=6 in.

M=9(6)+12(12)=198 in−kips (Clockwise)

∑(x2+y2)=2[(4.5)2+(1.5)2]=45 in.2

Top bolt is critical.

x=0y=92=4.5 in.pmx=My∑(x2+y2)=198(4.5)45=19.8 kips →∑px=2.25+19.8=22.05 kips→∑py=3 kips ↓p=(∑px)2+(∑py)2=(22.05)2+(3)2=22.253 kips

Conclusion:

The maximum bolt shear force in the given bracket connection is 22.253 kips.

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Answer 3

Question

Chapter 8, Problem 8.2.1P

To determine

The maximum bolt shear force in the given bracket connection by using an elastic analysis.

Expert Solution & Answer

Answer to Problem 8.2.1P

22.253 kips

Explanation of Solution

Given:

STEEL DESIGN W/ ACCESS, Chapter 8, Problem 8.2.1P

Calculation:

Determine the direct shear components:

Px=35(15)=9 kipsPy=45(15)=12 kipsPcx=94=2.25 kips →Pcy=124=3 kips ↓

Eccentricity:

ex=12 in.ey=9+1.5−4.5=6 in.

M=9(6)+12(12)=198 in−kips (Clockwise)

∑(x2+y2)=2[(4.5)2+(1.5)2]=45 in.2

Top bolt is critical.

x=0y=92=4.5 in.pmx=My∑(x2+y2)=198(4.5)45=19.8 kips →∑px=2.25+19.8=22.05 kips→∑py=3 kips ↓p=(∑px)2+(∑py)2=(22.05)2+(3)2=22.253 kips

Conclusion:

The maximum bolt shear force in the given bracket connection is 22.253 kips.

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Answer 4

Question

Chapter 8, Problem 8.2.1P

To determine

The maximum bolt shear force in the given bracket connection by using an elastic analysis.

Expert Solution & Answer

Answer to Problem 8.2.1P

22.253 kips

Explanation of Solution

Given:

STEEL DESIGN W/ ACCESS, Chapter 8, Problem 8.2.1P

Calculation:

Determine the direct shear components:

Px=35(15)=9 kipsPy=45(15)=12 kipsPcx=94=2.25 kips →Pcy=124=3 kips ↓

Eccentricity:

ex=12 in.ey=9+1.5−4.5=6 in.

M=9(6)+12(12)=198 in−kips (Clockwise)

∑(x2+y2)=2[(4.5)2+(1.5)2]=45 in.2

Top bolt is critical.

x=0y=92=4.5 in.pmx=My∑(x2+y2)=198(4.5)45=19.8 kips →∑px=2.25+19.8=22.05 kips→∑py=3 kips ↓p=(∑px)2+(∑py)2=(22.05)2+(3)2=22.253 kips

Conclusion:

The maximum bolt shear force in the given bracket connection is 22.253 kips.

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Answer 5

Chapter 8, Problem 8.2.1P

To determine

The maximum bolt shear force in the given bracket connection by using an elastic analysis.

Expert Solution & Answer

Answer to Problem 8.2.1P

22.253 kips

Explanation of Solution

Given:

STEEL DESIGN W/ ACCESS, Chapter 8, Problem 8.2.1P

Calculation:

Determine the direct shear components:

Px=35(15)=9 kipsPy=45(15)=12 kipsPcx=94=2.25 kips →Pcy=124=3 kips ↓

Eccentricity:

ex=12 in.ey=9+1.5−4.5=6 in.

M=9(6)+12(12)=198 in−kips (Clockwise)

∑(x2+y2)=2[(4.5)2+(1.5)2]=45 in.2

Top bolt is critical.

x=0y=92=4.5 in.pmx=My∑(x2+y2)=198(4.5)45=19.8 kips →∑px=2.25+19.8=22.05 kips→∑py=3 kips ↓p=(∑px)2+(∑py)2=(22.05)2+(3)2=22.253 kips

Conclusion:

The maximum bolt shear force in the given bracket connection is 22.253 kips.

Answer 6

Chapter 8, Problem 8.2.1P

To determine

The maximum bolt shear force in the given bracket connection by using an elastic analysis.

Expert Solution & Answer

Answer to Problem 8.2.1P

22.253 kips

Explanation of Solution

Given:

STEEL DESIGN W/ ACCESS, Chapter 8, Problem 8.2.1P

Calculation:

Determine the direct shear components:

Px=35(15)=9 kipsPy=45(15)=12 kipsPcx=94=2.25 kips →Pcy=124=3 kips ↓

Eccentricity:

ex=12 in.ey=9+1.5−4.5=6 in.

M=9(6)+12(12)=198 in−kips (Clockwise)

∑(x2+y2)=2[(4.5)2+(1.5)2]=45 in.2

Top bolt is critical.

x=0y=92=4.5 in.pmx=My∑(x2+y2)=198(4.5)45=19.8 kips →∑px=2.25+19.8=22.05 kips→∑py=3 kips ↓p=(∑px)2+(∑py)2=(22.05)2+(3)2=22.253 kips

Conclusion:

The maximum bolt shear force in the given bracket connection is 22.253 kips.

Answer 7

Chapter 8, Problem 8.2.1P

To determine

The maximum bolt shear force in the given bracket connection by using an elastic analysis.

Answer 8

Expert Solution & Answer

Answer to Problem 8.2.1P

22.253 kips

Answer 9

Expert Solution & Answer

Answer 10

Expert Solution & Answer

Answer 11

Explanation of Solution

Given:

STEEL DESIGN W/ ACCESS, Chapter 8, Problem 8.2.1P

Calculation:

Determine the direct shear components:

Px=35(15)=9 kipsPy=45(15)=12 kipsPcx=94=2.25 kips →Pcy=124=3 kips ↓

Eccentricity:

ex=12 in.ey=9+1.5−4.5=6 in.

M=9(6)+12(12)=198 in−kips (Clockwise)

∑(x2+y2)=2[(4.5)2+(1.5)2]=45 in.2

Top bolt is critical.

x=0y=92=4.5 in.pmx=My∑(x2+y2)=198(4.5)45=19.8 kips →∑px=2.25+19.8=22.05 kips→∑py=3 kips ↓p=(∑px)2+(∑py)2=(22.05)2+(3)2=22.253 kips

Conclusion:

The maximum bolt shear force in the given bracket connection is 22.253 kips.

Answer 12

Ch. 8 - Prob. 8.2.1P Ch. 8 - Prob. 8.2.2P Ch. 8 - A plate is used as a bracket and is attached to a...Ch. 8 - Prob. 8.2.4P Ch. 8 - Prob. 8.2.5P Ch. 8 - Prob. 8.2.6P Ch. 8 - Prob. 8.2.7P Ch. 8 - Prob. 8.2.8P Ch. 8 - Prob. 8.2.9P Ch. 8 - Prob. 8.2.10P

The maximum bolt shear force in the given bracket connection by using an elastic analysis.

Concept explainers

The maximum bolt shear force in the given bracket connection by using an elastic analysis.

Answer to Problem 8.2.1P

Explanation of Solution

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Chapter 8 Solutions