1. The rectangular framework shown in the next slide is subjected to the indicated non-concurrent system of forces. Determine the magnitude and direction of the resultant, also its moment arm relative to the origin O. 15 kips 12 kips 53 10 ft 50 8 kips 7 t 69 5 kips 13 kips
Q: 400 N 35° k 20 I 20⁰ ISON 200N IKN X
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Q: Q1: The 100 lb force of Figure below is the resultant of the couple and four forces, three of which…
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Q: Practice Problem 3.4.8: Determine the resultant of the three forces shown. 08m 20 kN 60 kN 80 KN 0.3…
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Q: Use the rectangular component method to solve the fol- lowing problems. Determine the magnitude R of…
A: The forces have been resolved into its components as follows:
Q: Determine the resultant of the force system shown. A = 41 KN/m B= 19 KN/m c= 3 m d= 4 m
A: Find the resultant force .
Q: Use the rectangular component method to solve the fol- lowing problems. Determine the magnitude R of…
A: Given data: F1 = 160 N F2 = 180 N Considering the given diagram:
Q: Determine the resultant of the concurrent system of forces shown.
A: As per given question We have to determine resultant force of given system
Q: Determine the resultant of the three forces shown.
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Q: Determine the resultant of the forces shown. The coordinates are in feet. 75 lb 40 lb 40 90° (5, 4)…
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Q: Determine the resultant of the three forces acting on the pulley shown.
A: Consider the diagram as shown below for the resultant of the three forces.
Q: Use the rectangular component method to solve the fol- lowing problems. Determine the magnitude R of…
A: Given Data The value of given force is, F1 = 450 lb. The value of given force is, F2 = 680 lb. The x…
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A: Given Beam under force To find Resultant Resultant position with respect to C
Q: Q: Determine the resultant of the force system shown in Fig. (1) and locate It with respect to point…
A: Draw the schematic diagram of the force system. Calculate the angle α. Calculate the angle β.
Q: Q1: The two forces shown act at point A of the bent bar. Determine the resultant R of the two…
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Q: Q1/ The two forces shown act at point A of the bent bar. Determine the magnitude of the resultant…
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Q: 20 kN/m 100 kN 4 kN/m A E F 十- 3 m 3 m 3 m 3 m 3 m
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Q: Determine the resultant R of the two forces shown by applying the parallelogram rule, from the…
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Q: Q1: The 100 tb force of Figure below is the resultant of the couple and four forces, three of which…
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Q: 220 10 cm 10 cm
A: Let A be the angle which 2200 N force vector makes with positive x axis in counterclockwise…
Q: Determine the resultant of the three forces shown. (18i-12j kN.m)
A: Writing the given forces in vector form as shown below, Taking upward z-direction as positive while…
Q: Determine the resultant of forces system shown in Figure below and locate it with respect to point…
A: given; lets take; force(F1)=120KN (downward)force(F2)=180KN…
Q: 4. The force system shown has a resultant of 200lb pointing up the Y-axis. Compute the values of F…
A: Given data: F1=100 lbF2=215 lb Need to determine the value of "F" and angle.
Q: 12.) Without computing the magnitude of the resultant, compute where the resultant of the forces…
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Q: 5. The wrench shown is the resultant of a force-couple system with the force acting at point 0.…
A: Given data: F = -6 i + 8 j + 5 k kN C = -18 i + 24 j + 15 k kN m To…
Q: QI: The 100 tb force of Figure below is the resultant of the couple and four forces, three of which…
A: Given data as per the question Inclined Force applied at the top surface of the member =100 lb the…
Q: Calculate Resultant and direction of resultant of forces F1= 10KN, F2=40 KN and F3-50KN acting along…
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Q: Q: Determine the resultant of the force system shown in Fig. (1) and locate it with respect to point…
A: Given Forces 7 kN, 40 kN and 36 kN Moment 80 kNm To find Resultant of the force Location of…
Q: Use the rectangular component method to solve the fol- lowing problems. Determine the magnitude R of…
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Q: Q2) If the resultant of the loads shown passes through point B, determine the equivalent…
A: P1=10 kipsP2=12 kipsP3=4 kips
Q: Determine the resultant of the concurrent force system shown below 50 |kN 60 kN 75 degrees 80 kN 75…
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Q: Determine the resultant of forces system shown in Figure below and locate it with respect to point…
A: ◆ The resultant of force system is 100 kN. ◆ It's location with respect to point A is 16.8 m.
Q: Determine the resultant couple moment acting on the beam shown: * 300 lb 200 lb 1.5 ft 200 lb 5 13…
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Q: QI: The 100 (b force of Figure below is the resultant of the couple and four forces, three of which…
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Q: Q1: The 100 tb force of Figure below is the resultant of the couple and four forces, three of which…
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Q: Determine the magnitude and direction of the resultant of the three force vectors shown in the…
A: Calculate the net force in the x-direction, Fx=140 kN×cos42°-85 kN×cos64°-60 kN×sin55°=17.63 kN…
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A: Consider the diagram shown below for the given system.
Q: Q1: The two forces shown act at point A of the bent bar. Determine the resultant R of the two…
A: Given Data |F1| = 5.8 kips |F2| = 6.3 kips
Q: Determine the resultant R of the two forces shown by applying the parallelogram rule, from the…
A: Given data Forces acting are F1 = 600 N F2 = 400 N
Q: Determine the resultant of the force system shown in fig. and the angle e which ?the resultant makes…
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Q: Use the rectangular component method to solve the fol- lowing problems. Determine the magnitude R of…
A: Calculate the angle made by the force F4 and F1 with the x-axis as follows:…
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Q: The overhead electric hoist C rides along a track on the horizontal beam AB. In addition to the…
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Q: 20 kN 140° 10 kN 4 m 5 kN 15 ml
A: givenframe as shown below
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Q: -) Determine the resultant of forces system shown in Figure below and locat with respect to point A?…
A: To determine the resultant and its position.
Q: Problem 3/ Determine the resultant of the resultant of the force system shown in fig.(3) and locate…
A: Given is the system subjected to forces as shown in the figure.
Q: Q1: The 100 lb force of Figure below is the resultant of the couple and four forces, three of which…
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Q: Determine the resultant of forces system shown in Figure below and locate it with respect to point…
A: To determine the resultant and its location from Point A.
Q: B: The plate shown below is affected by the forces FA and FB, by assuming the value of 0, calculate…
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Q: Referring to the figure shown determine the components of the forces F and P along X and Y axes…
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- Use the rectangular component method to solve the fol- lowing problems. Determine the magnitude R of the re- sultant of the forces and the angles 6, 6, and 0, between the line of action of the resultant and the positive r-, y-, and z-coordinate axes for F = 30 kip F2 = 35 kip 26 50% 30 36 33 F3= 20 kipFive forces and a couple act on the plate shown in the figure . - Find the resultant ( R ) Of the four forces , and its angle (e). - Locate it with respect to point ( O). - Show where the resultant cuts both the x - and y- axes. 400KN 7m 1o0 KN 6 m lom 800 KN-m V150 KN 18m 7200KN 100 KN L 8 mThe rigid pipe is subject to the following loads. Neglecting the weight of the pipe, determine the moment at O. SOLVE THE FF Vector component form of 50-lb force (ANSWER: 25.000i +0j -43.30k lb) Magnitude of the resultant force (ANSWER: 78.10 lb) Position vector of the 50-lb force from point O to its point of application on the pipe. (ANSWER: -15i -10j +12k inch) Moment at point O, in vector component form. (ANSWER: 1153.01i -829.52j +250.00k lb-in)
- Item 3 The 30-N horizontal force acts on the handle of the socket wrench (Eigure 1) Part A Determine the z, y, and z components of the moment of this force about point B. Express your answers using three significant figures separated by commas. VO AX vec M. M,, M, = N- m Submil Request Answer Part B Specity the coordinate drection angles a. B. 7 ot the moment axis. Express your answers using three significant figures separated by commas. V AEO I vec ? a. B.y = Figure O 1 of 1 Submit Request Answer Provide Feedback -200 mm mm 50 mmCan I have the method in vector mathematics. In lifting a heavy box, a man uses a block and tackle attached to the bottom of an I beam at hook B. The man applies 195 N force to end A of the rope. Given: X1 : 2.943 m Z1 : 1.655 m Z2 : 4.167 m a.) Determine the value of Y1 if the z-component of the moment at the origin is 254.558 N·m b.) Determine the x-component pf the Force Vector F. c.) Determine the mass of the box. If you believe that there is no possible way to solve the problem, justify on why the problem is invalid.Determine the resultant couple moment acting on the beam shown: 300 lb 5 200 lb 1.5 ft 200 lb 13 300 lb 4 ft 1 Add file
- Using the Component method, determine the magnitude and direction of the resultant and the equilibrant of the given forces. Force A = 316lb / 20° E of S Force B = 518lb / 15° N of E Force C = 111lb / W 05° SDetermine the resultant couple moment acting on the beam shown: * 300 Ib 200 lb 1.5 ft 200 lb 300 lb 4 ftQ4b. Force vectors F1 and F2 act on body Pwith the resultant force vector R. The resultant force R= 575 N and the angle between Rand the x-axis is of 320. If F1 = 275 N and the angle between F1 and the x-axis is 560, determine the angle between F2 and the x-axis. *Assume coplanar vector forces and give your answer in degrees to two decimal places. Body, P Answer: y F1 R F2
- While cutting a piece of paper, a person exerts the two indicated forces on a paper cutter. Reduce the two forces to an equivalent force-couple system at corner O and then specify the coordinates of the point P in the x- y plane through which the resultant of the two forces passes. The cutting surface is 30" x 30". 5 lb 24 Ib 15" 1" 5" Part 1 There are 2 distinct questions here. We will solve the first question now. Question 1: Replace the two forces shown by an equivalent force-couple system at point O. Find the force part of the force-couple system. Answer: F = i + j+ k) IbUse the rectangular component method to solve the fol- lowing problems. Determine the magnitude R of the re- sultant of the forces and the angles 6, 6, and 0, between the line of action of the resultant and the positive r-, y-, and z-coordinate axes for 2ft 2 2 f 2t F=600 Ib Fy- 700 Ib 2 ft F2= 800 IbThe robotic manipulator shown is analyzed for 2 weights on the arms AB and BC that act at their midpoints; Determine the sum of the moments of the three weights about point A. Givens-> W: 13 KgΘ°: 13X: 713 mm