1.9 For each of the systems of forces acting at a point in Figure 4.21, determine the magnitude and direction of the resultant by constructing polygons of forces. 14 kN 10 kN 6 kN 5 kN 10 kN 150 N 150 N 60° 30 30 30 45° 300 N 16 kN 6 KN 20 kN (a) (b) (c) 1000 N 6 kN 4 kN 500 N 30 30 20 30 90° 433 N 60° 50 1 kN
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Q: What is the sum of the X components of all 3 forces depicted? O 23.50 N O 29.85 N O 38.87 N O 19.45…
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Q: Four forces act on an object, given A = 34.3 N east, B = 48.3 north, C = 70.7 N west, and D = 92.7 N…
A: force A = 34.3 N , due east force B = 48.3 N , due north force C = 70.7 N , due west force D = 92.7…
Q: 2. What is the magnitude of the resultant of the three forces acting at point X? SON X 9.00
A: "Since you have asked multiple questions, as per instructions to us, we will solve the first…
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Q: Four forces act on an object, given by A = 49.3 N east, B = 50.3 N north, C = 76.7 N west, and…
A: Given data *Force acting on the object in east direction is A = 49.3 N *Force acting on the object…
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- Two forces, F1 and F2, act at a point. F₁ has a magnitude of 9.80 N and is directed at an angle of 58.0° above the negative x axis in the second quadrant. F₂ has a magnitude of 5.60 N and is directed at an angle of 52.1° below the negative x axis in the third quadrant.Compute the resultant of the concurrent forces shown in N. P1 = 265 N, P2= 303 N, P3 = 455 N, P4 = 192 N, 01 = 21, 02= 25, and 03= 10. Write numerical value only in 2 decimal places. P1 P4 03 8₂ + Y 0₁ P3 P2 + XThree blocks m₁, m2, and m3 are connected and pulled to the right on a horizontal frictionless table by a horizontal force. If m2 = 4m1, m3 = 5m1, T₁ and T2 are the tensions in the interconnecting cords between m₁ and m2, and m2 and m3 respectively, while the tension in the string pulling on m3 is T3 = 3m1g, 2a. Show a pictorial representation of the problem, along with the free body diagrams involved. 2. eidt et bedbonheutta 2b. Write Newton's 2nd Law for all three masses, and then solve for the acceleration of the system in terms of m₁ and g. boilgge ora exdavid odi sofie a ods 2c. Find T₁ and T2 in terms of m₁ and g. 2090ger no bend intedarfors 3 lo sbadingam-adi bat isild 38 sq ui uiuo vad bloods
- V F Resolve the force F into components along the u and v axes, and determine the magnitudes of these components. Given that F = 35 N, a = 16° , and ß = 32°, the magnitude along u is (round to one decimal place) : N the magnitude along v is (round to one decimal place) : NThere are two forces on the 2.26 kg box in the overhead view of the figure but only one is shown. For F₁ = 12.6 N, a = 11.5 m/s², and 0 = 24.4°, find the second force (a) in unit-vector notation and as (b) a magnitude and (c) a direction. (State the direction as a negative angle measured from the +x direction.) (a) Number i (b) Number i (c) Number i + i Units Units F x Ĵ Units î îWhat is the magnitude of the resultant force?
- An SUV containing 5 passengers has a mass of 3500 kg. It has a driving force of 2500 N directed west on a perfectly horizontal road. The surface of the road exerts a resistive force of 500 N due east. At the same time, a strong wind is blowing a force of 500 N due east in the opposite direction of the car's drive force. Does the car have any acceleration? If yes, then what is the magnitude and direction of the car's acceleration?Part B