One end of a uniform 3.20-m-long rod of weight F, is supported by a cable at an angle of e 37 with the rod. The other end rests against the wall, where it is heid by friction as shown in the figure below. The coefficient of static friction between the wall and the rod is ,0.495. Determine the minimum distance x from point A at which an additional object, also with the same weight F can be hung without causing the rod to slip at point A. 301 You will need to work with the equations D and and manipulate the equations wymboically to solve for the distance. m
One end of a uniform 3.20-m-long rod of weight F, is supported by a cable at an angle of e 37 with the rod. The other end rests against the wall, where it is heid by friction as shown in the figure below. The coefficient of static friction between the wall and the rod is ,0.495. Determine the minimum distance x from point A at which an additional object, also with the same weight F can be hung without causing the rod to slip at point A. 301 You will need to work with the equations D and and manipulate the equations wymboically to solve for the distance. m
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Transcribed Image Text:One end of a uniform 3.20-m-long rod of weight F is supported by a cable at an angle of 8= 37° with the rod. The other end rests against the wall, where it is heid by
friction as shown in the figure below. The coefficient of static friction between the wall and the rod is ,0.495. Determine the minimum distance x from point A at which
an additional object, also with the same weight F can be hung without causing the rod to slip at point A.
301
You will need to work with the equations F
O and P
O and manipulate the equations Nymbolically to solve for the distancn. m
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