Statics and Mechanics of Materials (5th Edition)
5th Edition
ISBN: 9780134382593
Author: Russell C. Hibbeler
Publisher: PEARSON
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Chapter 2.6, Problem 45P
Determine the magnitude and coordinate direction angles of F3 so that the resultant of the three forces acts along the positive y axis and has a magnitude of 600 lb.
Probs. 2–45/46
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If the magnitude of the resultant force acting on the eyebolt is 620 N and its direction measured clockwise from the positive x-axis is θ = 32 ∘, determine the magnitude of F1.
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Q2) What is the magnitude of F2 and its direction Ø ,when the magnitude of the resultant force acting on the bracket is 600N directed along the positive x axis
If the magnitude of the resultant force is 1300 N and acts along the axis of the strut, directed from point A towards , determine the magnitudes of the three forces acting on the strut. Set x = 0 and z = 5.5 m.
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- Determine the magnitude of the resultant of the given concurrent forces.F1= 800 N; along (+) x- axis, F2= 400 N; -210˚, F3= 400 N; 240˚, F4= 800 N; S 30˚E a.) 851.906 N b.) 1063.71 N c.) 1092.82 N d.) 1121.86 N e.) None of the Abovearrow_forward2-33. Determine the magnitude of the resultant force and its direction, measured counterclockwise from the positive x axis. F3 = 8 kN 60° 45° F₂ = 5 kN F₁ = 4 kNarrow_forward1. Determine the magnitude of the F3, so that the resultant of the three forces is zero. 2. Determine the coordinate direction angle of the F3, so that the resultant of the three forces is zero. 3. Determine the coordinate direction angle of the F3, so that the resultant of the three forces is zero. 4. Determine the coordinate direction angle of the F3, so that the resultant of the three forces is zero.arrow_forward
- The resultant of the two forces, when they act at an angle of 60° is 14 N. If the same forces are acting at right angles, their resultant is 136 N. Determine the magnitude of the two forces.arrow_forwardThe 700-Ib force acting on the frame is to be resolved into the two components acting along the axis of the struts AB and AC. If the component of force along AC is required to be 300 Ib, directed from A to C, determine the magnitude of the force acting along AB and the angle e of the 700-Ib force.arrow_forwardThree forces act on the bracket. The resultant force is directed along the positive x* axis and has a magnitude of 8 kN. Determine the magnitude of F. Determine the direction θ of F.arrow_forward
- Find the magnitude of the resultant force, R, of the following forces using Law of Sine/Cosine. F1=81N 26ᴼ S of W and F2=62N 67ᴼ E of N.arrow_forwardIf the resultant force of the two tugboats is required to be directed towards the positive x axis, and FB is to be a minimum, determine the magnitude of FR. Determine the magnitude of FB and angle theta.arrow_forwardIf 0=60° and F=85 KN, determine the magnitude of the resultant force and its direction measured clockwise from the positive x axisarrow_forward
- Answer the following. 1.) Determine the resultant force if F1 = 120 lb at 60 deg N of W, F2 = 100 lb southeast. 2.) Find the magnitude of the resultant force if F1 = 50 lb at 35 deg S of W and F2 = 40 lb at 25 deg N of W.arrow_forward6. Determine the magnitude of the resultant of the given concurrent forces.F1= 800 N; along (+) x- axis, F2= 400 N; -210˚, F3= 400 N; 240˚, F4= 800 N; S 30˚E. (A) 1063.71 N (B) 851.906 N (C)1121.86 N (D)1092.82 N (E)None of the Abovearrow_forwardReplace the loading acting on the beam by a single resultant force. Take F1 = 480 N , F2 = 310 N , F3 = 710 N . Determine the magnitude of the resultant force. Determine the angle between the resultant force and the x axis.arrow_forward
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