Essential Mechanics of Materials:
Philpot, Mechanics of Materials, 3e Mechanics of Materials (CENE 253 STANDARD VIEW PRINTER VERSION BACK NEXT P9.026 The ctever beam is sublected to a concentrated load of P - 46 kips. The cross-sectional dimensions of the wide-flange shape are shown in the second figure. (a) the shear stress T- at point H, which is located 3.1 in. below the centroid of the wide-flange shape. x Not Correct Assume yw-3.1 in., -1.9 in., d-10.1 in., t 0.261 in., tr-0.321 in., br...
The following problems are from the course's textbook: Mechanics of Materials, 7th Ed. Ferdinand P. Beer, E. Russell Johnston, Jr., John T. Dewolf, and David F. Mazurek McGraw-Hill, 2014): 1 Problem 6.1 2. Problem 6.18 The following problems are from the course's textbook: Mechanics of Materials, 7th Ed. Ferdinand P. Beer, E. Russell Johnston, Jr., John T. Dewolf, and David F. Mazurek McGraw-Hill, 2014): 1 Problem 6.1 2. Problem 6.18
Mechanics of materials 3. (50 points) Draw the shear and moment diagram for the following beams (Figure 3a & 3b) 400 tb 8 in. 8 in. 12 in 12 1 12 in
Please solve mechanics of materials MECE201 Lectures.. x 26 26 If the C-clamp shown in the figure is loaded with a force F of 5 kN. Determine the maximum normal stress (9)
Applied Mechanics of Materials. Need Help (c) The outer diameter and thickness of an air compressor tank are 25 in. and 0.25 in., respectively. If the compressor tank pressure reached 120 psi, determine the hoop an longitudinal stresses acting at point B. (1 .B
Applied Mechanics of Materials. Need Help!! (a) A steel tube having inner and outer dimeters of 1.5 in, and 2 in., respectively, is turning at 45 rev/min. If the allowable shear stress (Tallow) of the tube material is 10 ksi, determine the horse power (hp) transmitted by the tube. (20 points)
Mechanics of materials a) Determine the maximum shear stress on the axis that works with the torsional moments as shown in the figure b) Find the angle of torsion in degrees between the two ends has that G = 8.4 ^ 5 Kgf / cm2 Outside diameter: 50mm Inner diameter: 30mm Sorry :') mM mM
(MECHANICS OF MATERIALS problem) 6. Please refer to the figure below. Find the maximum shear stress in the beam 200 lb/ft lod 150 lb/ft -6 ft 6 ft- 2 ft 4 in 0.75 in 6 in 0.5 in. 4 in 0.75 in.
(Adpated from Problem 7-32 from Hibbeler - Statics and Mechanics of Materials) For the beam shown above where P 650 kN, a 4 m, and b 8 m; Calculate the magnitude of the shear force at the point 2 m from the left support. Calculate the magnitude of the shear force at the point 4 m from the right support. Calculate the magnitude of the bending moment at the point where the force P is applied kNm (Adpated from Problem...