Essentials in the theory of framed structures . Fig. 36. Fig. 37. II. Find the weight and vertical gravity line of the body (Fig. 36) if themagnitude of the force at A is 781 lb. What is the direction of the force at .4 ? 12. Neglect the weight of thebody (Fig. 37) and find the magni-tude of A, and the location anddirection of a force of 1,220 lb. forequilibrium. 13. A level beam of uniform cross-section 10 ft. long, weighing supported at each end, carries asingle load of 5 tons at is the problem of finding thetwo reactions indeterminate? ->||J An algebraic solution
Essentials in the theory of framed structures . Fig. 36. Fig. 37. II. Find the weight and vertical gravity line of the body (Fig. 36) if themagnitude of the force at A is 781 lb. What is the direction of the force at .4 ? 12. Neglect the weight of thebody (Fig. 37) and find the magni-tude of A, and the location anddirection of a force of 1,220 lb. forequilibrium. 13. A level beam of uniform cross-section 10 ft. long, weighing supported at each end, carries asingle load of 5 tons at is the problem of finding thetwo reactions indeterminate? ->||J An algebraic solution for each of „ the two following problems is long and involved. Show that thegraphic solution is comparatively short in each case.
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Keywords: ., bookcentury1900, bookdecade1920, booksubjectstructu, bookyear1922
