How Do You Calculate Torque on a Wrench?

  • Thread starter Thread starter tennisgirl92
  • Start date Start date
  • Tags Tags
    Torque Wrench
Join the discussion
Ask a follow-up here, or get your own question answered by working scientists, mathematicians and engineers — people, not an autocomplete.
Real named experts · corrections over time · the nuance an AI answer skips
4 replies · 4K views
tennisgirl92
Messages
43
Reaction score
1

Homework Statement


(a) Suppose you have just barely loosened a rusty bolt. Your mass is 80 kg and you have a wrench of length L = 50 cm placed as shown in the diagram below, and hung off the end so all your weight was applied, in the downward direction, to the end of the wrench. What is the magnitude and direction of the torque?
magnitude 392 N m
direction counterclockwise
6-post-004a.gif


(b) Now suppose you had a bolt that needed to be tightened to 250 N · m. You place the wrench as shown in the diagram below, and hung off the end so all your weight was applied, in the downward direction, to the end of the wrench. What length wrench would you need to tighten the bolt completely?
L = .3189 m
6-pre-07b.gif


(c) Suppose you had the same wrench as in part (a), but you placed the wrench at an angle θ = 54° with the vertical, as shown below. How much torque is applied to the bolt?
magnitude
direction clockwise
6-pre-07c.gif


Homework Equations


Torque=radius x force (in this case, weight) x sin(theta)

The Attempt at a Solution


I am having difficulty with the 3rd part. If the torque is as the above equation,
T=.5 m x 80kg x 9.8 m/s2 x sin(54)
=-219.0
which magnitude is 219 N m with a clockwise direction
However, this is incorrect. Perhaps this is my angle-do I need to subtract 54 from 90? How do you know what angle to look at? Where do you form the right triangle for the correct trig?
 
Physics news on Phys.org
tennisgirl92 said:
T=.5 m x 80kg x 9.8 m/s2 x sin(54)
=-219.0
The algebra is right, but you should have noticed it ought to give a positive answer. (To get the expected negative sign for the torque you would need to put in the appropriate sign on the angle, i.e. -54 degrees.)
What did you forget to do when you entered the angle into the sine function on your calculator?
 
haruspex said:
The algebra is right, but you should have noticed it ought to give a positive answer. (To get the expected negative sign for the torque you would need to put in the appropriate sign on the angle, i.e. -54 degrees.)
What did you forget to do when you entered the angle into the sine function on your calculator?
hmm...my calculator was in radian mode. I need degree mode, don't I? ha
 
tennisgirl92 said:
hmm...my calculator was in radian mode. I need degree mode, don't I? ha
Right.

With regard to deciding when to take sine and when cosine, I always check by considering a corner case, i.e. the angle being 0 or 90. Would the value of the trig function make sense in context? In the present case, when the angle is a right angle you would get maximum torque, so sine is right.
 
  • Like
Likes   Reactions: Merlin3189
haruspex said:
Right.

With regard to deciding when to take sine and when cosine, I always check by considering a corner case, i.e. the angle being 0 or 90. Would the value of the trig function make sense in context? In the present case, when the angle is a right angle you would get maximum torque, so sine is right.

Thank you! That was most helpful.