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in this problem , i could only understand that P3 = 120KN , i cant understand why P2= -60kN and why P1 = 240kN ? can someone explain ?
Force acting on steel rod (deformation)
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- #2
Nidum
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In the same way that you can do a shear force diagram for lateral loads on a beam you can do a tension force diagram for axial loads on a shaft .
Basically plot a graph of axial tension against position along shaft . Have a try .
Basically plot a graph of axial tension against position along shaft . Have a try .
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What do you mean? can you explain further?
- #4
Chestermiller
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If you do a force balance on the entire rod, what do you get for the reaction force on the left end?
- #5
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how to do it ? i know only the P3 .... which is 120kN , how to do for P1 and P2 ?
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- #6
Chestermiller
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You have 3 forces acting on the rod: 300 kN, 180 kN, and 120 kN. In order of the rod to be in static equilibrium, there must also be a force applied by the wall on the bar at location A. What does that force have to be?
- #7
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what i found is this ? how to find the force applied by the wall on the bar at location A. ??
btw , i am not sure which 1 is P3 and which one is P2
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- #8
Chestermiller
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Forget about P1, P2, and P3 for now. Are you saying that you don't know how to do a 1 dimensional equilibrium force balance on a solid object?
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- #10
Chestermiller
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F = 300 -180 + 120
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