AAMC cbt 9 #51

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kabtq9s

kabtq9s

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I got this problem right but I kinda made a guess on it.

I keep trying to relate it to the inclined plane formulas in the image below the problem , does it have any relation ?


51-friction.png


inclined-planes.jpg
 
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kabtq9s said:
I got this problem right but I kinda made a guess on it.

I keep trying to relate it to the inclined plane formulas in the image below the problem , does it have any relation ?


51-friction.png


inclined-planes.jpg
Click to expand...

I wouldn't think about inclined planes here, that's not the way to do it.

Constant speed so forces left = forces right.

F = the horizontal component of T
Horizontal component of T is T cos theta..

done.
 
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Jepstein30 said:
I wouldn't think about inclined planes here, that's not the way to do it.

Constant speed so forces left = forces right.

F = the horizontal component of T
Horizontal component of T is T sin theta..

done.
Click to expand...


but isn't the answer T cos theta ?

to be honest I just looked at the theta in figure and said "that looks like a cos, since cos = adjacent/ hypotenuse" but I wasn't exactly sure what I was doing 😕
 
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kabtq9s said:
but isn't the answer T cos theta ?

to be honest I just looked at the theta in figure and said "that looks like a cos, since cos = adjacent/ hypotenuse" but I wasn't exactly sure what I was doing 😕
Click to expand...

Yea, typo there sorry about that.

T cos theta.

cos is adjacent over hypotenuse... and T is the hypotenuse.. which leaves you with just the adjacent (which is the horizontal component).
 
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kabtq9s said:
I got this problem right but I kinda made a guess on it.

I keep trying to relate it to the inclined plane formulas in the image below the problem , does it have any relation ?


51-friction.png


inclined-planes.jpg
Click to expand...

I also wouldn't think about inclined planes though I guess the whole trigonometry thing is still there. In inclined planes, because the object is actually moving at an angle to horizontal, it's the force is related to it's weight while in the example you showed, we're looking at movement in the horizontal direction (weight is perpendicular to that). Though I guess tension is related to weight so I'm probably not using the best rational when I did it, 😛.
 
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