PEARSON ETEXT ENGINEERING MECH & STATS
15th Edition
ISBN: 9780137514724
Author: HIBBELER
Publisher: PEARSON
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4. The pole is subjected to the force F which has components Fx=2.5 kN and Fz=1.5
kN. If B = 60° , determine the magnitudes of F & Fx.
F
F,
Resolve the 360-N force into components along the cables AB and AC. Use α = 55° and β= 30°.
Resolve the forces F1=6 kN and F2=6 kN into components acting along the u and v axes and determine the magnitudes of the
components. The angles are given as 01=26, 02=89 and 03=52.
F1
F2
|(F)ul=
kN
(F)y =
kN
(F2)u =
kN
(F2)y =
kN
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- Determine the resultant force acting at A. 1.5 m 2 m 4 m F= 40 N F = 55 N 6 m 3m 4m.arrow_forwardThe resultant of the three cable tension acts along the y-direction. Determine T1 given that T2 = 980 N.arrow_forwardThe pole is subjected to the force F which has components Fx = 1.6 kN and Fz = 1.35 kN. If β = 72, determine the magnitude of Fy and Farrow_forward
- 2-1. Determine the magnitude of the resultant force FR = F, + F, and its direction, measured clockwise from the positive u axis. %3D 30 75° F = 4 kN 30° F2 = 6 kNarrow_forward1. If the resultant force acting on the hook is FR = { -115 i + 643 j + 139 k } lb, determine the magnitude of the force FR in lb.arrow_forwardbläi 4 The resultant of the force system shown is F2 = 500N F1 = 300N 30° 45° 60° F3 = 400Narrow_forward
- The convergent system of 4 forces acting on an absolutely rigid body is balanced (ΣFKY = 0). Determine the projection of the fourth force on the Oy axis if F1y = 160.0 kN; F2y = -46.0 kN; F3y = 36.0 kN;.arrow_forwardDetermine coordinate direction angle a of the resultant force acting at A. Given that FB = 575 N and FC = 677N . %3D B. 2 m 3.5 m FB Fc 0.5 m 1.5 m 1 m 0.5 m 1.5 marrow_forwardThe diagram shows the distributed loading profile on a vertical surface. Replace the distributed load by a single force and determine its location along the surface with respect to point O. Q4 3 m 7.5 kN/m 3 m 4.5 m 20 kN/marrow_forward
- The cable exerts a tension of 3.4 kN on the fixed bracket at A. Write the vector expression for the tension T. | 0.5 m 0.4 m B T = 3.4 kN 0.2 m 1.0 m Answer: T= ( i i+ i j+ i k) kNarrow_forwardDetermine the magnitude of the resultant force FR= F1 + F2 and its direction, measured clockwise from the positive u axis.arrow_forwardThe force system acting on the machine part is equivalent to the single force R=80i + 20jlb acting at O. Determine the force P and the distance b.arrow_forward
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