- #36
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I think you meant T=6.037Nhello478 said:
(Always specify the units.)
Last edited:
In summary, the horizontal force exerted by a block on a beam refers to the lateral load that the block applies to the beam's structure. This force can influence the beam's stability, deflection, and overall structural integrity. Understanding this interaction is essential for engineers when designing beams to ensure they can adequately support such forces without failure. Factors such as the weight of the block, the angle of application, and the materials involved play a critical role in determining the magnitude and effect of the horizontal force.
(Always specify the units.)
- #37
hello478
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yeah, it was a typo...
i meant 6.037
i meant 6.037
- #38
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Ok, so what next? Will you have a go at an answer to the question in post #1, or maybe first try the case of the block being at B?hello478 said:
- #39
hello478
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yeah sure, i will do it in the morningharuspex said:
thank you for the guidance!
- #40
BvU
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We prefer you post your calculations, not just the results. But: 80% is correct. Only T is off ( ##T = T_y/\sin\bigl ( {50\over 180}\pi \bigr ) = 6.04## N ) [edit] ah, already noted and a typohello478 said:
Well done.
Except you omitted the units -- a strict prof would give you 0 points.[edit] haha, already noted too
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- #41
BvU
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Conceptual intermezzo:hello478 said:
The tension in the two ropes is equal and each is half your ##mg## (you just hang there and don't swing).
What happens to these tensions when you shift towards the right rope ?
What happens when you move even further, to the other side of the rope ?
Catch my drift ?
(it was rather a long dinner -- again
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- #42
hello478
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thank you for the explanation :)BvU said:
when we shift towards right the tension in the right rope increases
and if we dang towards the left rope the tension in the left rope increase
am i right? or wrong?
- #43
hello478
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AN ATTEMPT TO THE ORIGINAL QUESTION:::::: is this correct?? 
The block is now moved closer to end A of the beam. Assume that the beam remains
horizontal.
State and explain whether this change will increase, decrease or have no effect on the horizontal
component of the force exerted on the beam by the hinge
so the answer to this question would be...
that the resultant tension in the rope decreases
and the horizontal component of the tension also decreases
before horizontal component is 10.9N and as it moves closer to A i decreases and at A it eventually becomes 3.88N
The block is now moved closer to end A of the beam. Assume that the beam remains
horizontal.
State and explain whether this change will increase, decrease or have no effect on the horizontal
component of the force exerted on the beam by the hinge
so the answer to this question would be...
that the resultant tension in the rope decreases
and the horizontal component of the tension also decreases
before horizontal component is 10.9N and as it moves closer to A i decreases and at A it eventually becomes 3.88N
- #44
hello478
- 165
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AT B:
T= 21.7 N
Tx= 13.95 N
Ty= 16.625 N
Hx= 13.95 N
Hy= 4.625 N (acting downwards)
while at A Hy= 16.625 N acting upwards
T= 21.7 N
Tx= 13.95 N
Ty= 16.625 N
Hx= 13.95 N
Hy= 4.625 N (acting downwards)
while at A Hy= 16.625 N acting upwards
- #45
BvU
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Bingo ! 
And with units !
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And with units !
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- #46
hello478
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yesss finally!!BvU said:Bingo !
And with units !
