(a) On each sheet of engineering paper reserved for analysis, calculate the vertical shear specific to that member at appropriate intervals across the length of the free-body diagram. Be sure to solve...

a) Calculate the vertical shear specific to that member at appropriate intervals across the length of the free-body diagram. Be sure to solve for locations where shear passes through zero. b) Draw the related shear diagram. Show locations where shear passes through zero.
(a) On each sheet of engineering paper reserved for analysis, calculate the vertical shear<br>specific to that member at appropriate intervals across the length of the free-body<br>diagram. Be sure to solve for locations where shear passes through zero.<br>(b) On each sheet of engineering paper containing the free-body diagram, neatly draw<br>the related shear diagram directly below the associated free-body diagram. The<br>shear diagram should be located in the middle one-third of the page. Reserve the<br>bottom one-third of the sheet for the bending moment diagram introduced in Chap-<br>ter 12. Be sure to show locations where shear passes through zero.<br>W = 260 Ib/ft<br>2000 ID<br>8 ft<br>8 ft<br>16 ft<br>R2<br>Free-body diagram<br>

Extracted text: (a) On each sheet of engineering paper reserved for analysis, calculate the vertical shear specific to that member at appropriate intervals across the length of the free-body diagram. Be sure to solve for locations where shear passes through zero. (b) On each sheet of engineering paper containing the free-body diagram, neatly draw the related shear diagram directly below the associated free-body diagram. The shear diagram should be located in the middle one-third of the page. Reserve the bottom one-third of the sheet for the bending moment diagram introduced in Chap- ter 12. Be sure to show locations where shear passes through zero. W = 260 Ib/ft 2000 ID 8 ft 8 ft 16 ft R2 Free-body diagram

Jun 11, 2022
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