Final_HB Posted August 15, 2013 Posted August 15, 2013 Original question: A load of weight W is supported in equilibrium by two strings attached to it. One is inclined at an angle 30 to the vertical, and the other is inclined at an angle 60 to the vertical. If either rope breaks if the tension exceeds a value of To, Find the greatest value of W that can be supported. What I have so far: Well, its at equilibruim. So all the forces equal 0. Since we are looking for the greatest value, we set the tension in both strings as To as specified. Its at angles, so we need to get the horizontal and vertical components of each string. Which look like: To Cos30 + To Sin30 and To Cos60 +To Sin60 Am I good so far? Main problem is working out the tension... So hints on where to go from there would be greatly appreciated
studiot Posted August 15, 2013 Posted August 15, 2013 Good morning Final_HB. I'm glad you reviewed yesterday's problem, shows the value of reviewing. Yes you are on the right track, but W only appears in the vertical expression. You formally obtain the condition you should write this as an inequality W <= vertical opposing forces If you rearrange the expression you will come to the solution.
Final_HB Posted August 15, 2013 Author Posted August 15, 2013 Hello again Sounds, and looks good to me This place is great so helpful, and quick to respond as well!! thank you again.
imatfaal Posted August 15, 2013 Posted August 15, 2013 Good old fashioned mechanics problems are just fun!
Final_HB Posted August 15, 2013 Author Posted August 15, 2013 Im glad you enjoy them I might have to spam a few more here
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