Finding the magnitude of the moment on a pipe wrench

AI Thread Summary
The discussion focuses on calculating the magnitude of the moment on a pipe wrench using vector components. A force of 56 pounds is applied, and participants clarify the correct vector expressions for both the force and the wrench handle. The force vector is confirmed as <0, -56>, while the wrench handle vector needs to be adjusted to account for the angle and length, ultimately leading to a corrected expression. The conversation also touches on maximizing torque, concluding that the moment is maximized when the angle is 90 degrees. The importance of following the homework template for clarity in problem-solving is emphasized throughout the discussion.
yazz912
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Homework Statement



A force of 56 pounds acts on the pipe wrench shown.
find the magnitude of the moment about O by evaluating || OA x F ||

Homework Equations



|| OA x F ||

The Attempt at a Solution



First I tried to find my vector component for Force which I got
-56 [ cos(30)i + sin(30)j ]

Since my force on wrench is 56 pounds and it is in a downward vertical I used F=-56
To which my vector for F simplified to =
-28sqrt(3)i -28j

Now I needed to find a component vector from O to A.
Which I initially thought would be
0i+0j +(3/2)k
Since 3/2 ft (18in) is how long my wrench is?

after I get my two vector components I use the cross product and find the magnitude. I just needed some guidance on my vectors for F and vector(OA)
ImageUploadedByPhysics Forums1392974953.897808.jpg
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You're making this problem harder than it should be.

In the x-y coordinate system shown in the diagram, what is the vector expression for F?

Similarly, what is the vector expression for the wrench handle OA?

You are trying to mix approaches by finding the components of F with respect to the wrench, instead of using the vectors for F and OA in the x-y system.
 
After my attempt to solve the problem I used the solutions manual and they had something completely different.
Which is why I started struggling .

So then would F be <0,-56>
And OA <0,18> ?
 
F is OK. OA is not. Remember, use the axes shown on the diagram as the reference. 18" is the length of the vector OA, and 30 degrees is the angle OA makes with the horizontal.
 
Would It still be ok to use the length of the wrench of 18in or convert to ft?
So OA should be
= 18[ cos(30)i + sin(30)j ]
= ( 9sqrt(3) , 9 ) ?
 
Yes, you can convert the length of OA to feet.

Your OA vector is still not correct. What is the length of OA?
 
18 inches
 
Well, fix your components for the vector OA.
 
OA= < 3sqrt(3) , 3/4 >

This is what I get after converting 18= 1.5 ft and using my reference angle.
 
  • #10
Vector OA is still incorrect. The y-component is OK, but the x-component is off. Please show how you are calculating your components.
 
  • #11
Oh I apologize I meant to write

3sqrt(3)/ 4 for my x component .
 
  • #12
Looks better. Finish the calculation now that you have the proper vector expressions.
 
  • #13
to find the magnitude of the cross product of OA and F

|| OA x F ||= 42sqrt(3) is what I get .
 
  • #14
Looks good.
 
  • #15
Thank you very much! One last question . Diagram listed shows theta in regards to the angle as the angle on the end of the wrench increases.
If I'm solving for theta I get 84sin(theta) .

How do I know when I am suppose to solve for the given angle such as the 30deg that was given as opposed to solving for theta in general?
 
  • #16
yazz912 said:
Thank you very much! One last question . Diagram listed shows theta in regards to the angle as the angle on the end of the wrench increases.
If I'm solving for theta I get 84sin(theta) .

How do I know when I am suppose to solve for the given angle such as the 30deg that was given as opposed to solving for theta in general?

I'm afraid I don't quite follow what you are asking. Could you post the complete text of the question? That's why PF asks HW posters to follow the HW template when posting: it eliminates a lot of confusion for the HW helpers.
 
  • #17
I had only posted part a) of the question. Here is the attachment. Sorry for any confusion.
ImageUploadedByPhysics Forums1393023953.812315.jpg
 
  • #18
In part c), you are supposed to find the angle θ such that the magnitude of the moment is maximized. What angle do you think that is? Did you make the plot that was asked for in part a)?
 
  • #19
So in part a) was the answer correct 42sqrt(3) ? Or am I solving for θ instead of 30?

c) I believe the angle in which the moment is maximized would be at θ=90 torque is maximized when it is perpendicular.
 
  • #20
And no I did not plot it, I'm not too familiar with the functions on my graphing calculator
 
  • #21
yazz912 said:
So in part a) was the answer correct 42sqrt(3) ? Or am I solving for θ instead of 30?

This is the magnitude of the moment when θ = 60 degrees.

c) I believe the angle in which the moment is maximized would be at θ=90 torque is maximized when it is perpendicular.

Yes, that is a reasonable conclusion.

You may have to take a sheet of paper and draw a graph of moment versus θ to answer a).
 
  • #22
de que capitulo y libro encontraste ese problema?
 

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