PEARSON ETEXT ENGINEERING MECH & STATS
15th Edition
ISBN: 9780137514724
Author: HIBBELER
Publisher: PEARSON
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Find the magnitude and direction of the resultant force if F1 = 100 N at 30 deg N of E and F2 = 80 N at 45 deg N of W.
Find the magnitude and direction of the resultant force if F1 = 60 N at 45 deg N of W and F2 = 50 N at 60 deg S of E.
Find the components of the force F =(14i-5j+2k)N
acting in the direction of the vector a = 4i-3k.
Hence, express as vectors the parallel and perpendicular
components of F relative to a
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- The three forces of magnitude P can be replaced by a single, equivalent force R acting at point A. Determine the distance x and the magnitude and direction of R.arrow_forward1 P= 70N Forces P and Q intersects at 0. Determine B if the resultant of these forces is 10ON. Also, determine the direction, 0, of the resultant. a = 40° Q= 50Narrow_forwardFind the resultant force vector,R, of the three vectors A,B, and C (i.e., add the vectors), if the magnitude of vector A is 10N, the magnitude of vector B is 17N, and the magnitude of vector C is 9N. Your answer should be in the form R = Rx i+ Ry j, where you determine Rx and Ry, and where i, and j are the unit vectors along the x, and y axis, respectively. YA В A 60° 45°arrow_forward
- Express the force in Cartesian vector form. F = 1500 lb 17 t 12 ftarrow_forwardRis the resultant of the four forces A, B, C, and D. Find the magnitude of the angle 0 and the magnitude of C. A= 2200 N AR= 1800 N 3 B = 450 N D=580 N 12 IEarrow_forwardQ6- Two forces F1=240 lb and F2=160lb act on the hip joint. Determine the resultant of the two forces and express the result as a cartesian vector. Also, find the coordinate direction angles of the resultant force. Z F1= 240 lb 75° 131 F2 = 160 lb ww 45° yarrow_forward
- If F = 30 lb and F = 40 lb, determine the angles 0 ana o so that the resultant force is directed along the positive x axis and has a magnitude of FR=60 lb.arrow_forwardQ(1): If the magnitude of the resultant force acting on eyebolt id 60O N and its direction measured clockwise from the positive x-axis is e=30, determine the magnitude of F1 and the angle p F:=500 N Fy 450 Narrow_forwardF₂= 200 lb Z O F3=400 lb 30° -y Specify the magnitude and coordinate direction angles α₁, B₁, Y₁ of F₁ so that the resultant of the three forces acting on the bracket is FR = {-350k} . Note F3 lies on the x-y plane.arrow_forward
- 2. Three forces act on the hook. If the resultant force FR has a magnitude and direction shown, determine the magnitude and the coordinate direction angles of Force F3. Please view Figure 2. F = 110N F- 120 N F, = 80 N 30 Figure 2arrow_forward1. If the resultant force acting on the hook is FR = -400 į + 200 j + 250 k (b), determine the magnitude and coordinate direction angles of F. F 30° y F = 800 lb 5 3arrow_forwardSince F1 = 200 N Theta = 15 °, determine the magnitude of the resultant force acting on the bracket and its direction measured counterclockwise from the positive x 'axis.arrow_forward
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