2/40 The 30-N force P is applied perpendicular to the portion BC of the bent bar. Determine the moment of P about point B and about point A. P 30 N C 1.6 m 45 1.6 m Problem 2/40 B.
Q: Q1\ The 50-N force P is applied perpendicular to the portion BC of the bent bar. Determine the…
A: Moment about point B Moment = force ×perpendicular distance (BC) MB=50(2)=100N-m
Q: The 30N Force (P) is applied perpendicular to the portion BC of the bent bar. Determine the moment…
A: Consider below FBD for the given question: From the data givnen in question, BC = 1.6 m AB = 1.6 m…
Q: The 30 N force
A: Moment about point B M=30(1.6)=48N k
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A: Given Data: The force acting at point A is F = 4i-3j+5k The expression for moment M about origin O…
Q: The 30N force P is applied perpendicular to the portion BC on the bent bar . Determine The moment of…
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A: Given data: F→=3i+4j-6k kN Need to determine the moment moment about the point P.
Q: The 30 N force
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Q: P = 30 N 5- The 30-N force P is applied perpendicular to the portion BC of the bent bar. Determine…
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Q: QI \ The 50-N force P is applied perpendicular to the portion BC of the bent bar. Determine the…
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Q: The 30-N force P is applied perpendicular to the portion BC of the bent bar. Determine the moment of…
A: Given Applied load = 30 N To find Moment at point A
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Q: Q1\ The 50-N force P is applied perpendicular to the portion BC of the bent bar. Determine the…
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Q: Q1\ The 50-N force P is applied perpendicular to the portion BC of the bent bar. Determine the…
A: Moment of P about the point B is MB=P×BC=50×2=100 N·m
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A: for solution refer below images.
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Q: The 30-N force P is applied perpendicular to the portion BC of the bent bar. Determine the moment of…
A: we need to determine moment about B MB = P*BC = 30*1.6 = 48 N-m
Q: Determine the moment of the force about point O 50 N 100 mm- 60 200 mm 45° -100 mm- N.m 20.1-a N.m…
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Q: The 30-N force P is applied perpendicular to the portion BC of the bent bar. Determine the moment of…
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A: Given data,F = 82 6 N.a = 21 mm Sin θ = 5/13.b = 31 mm…
Q: Q1 \ The 50-N force P is applied perpendicular to the portion BC of the bent bar. Determine the…
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- The forces P and Q act on the handles of the wrench. If P = 321b and Q = 36 lb, determine the combined moment of the two forces about the z-axis.Using a ring collar the P = 679 N force can act in the vertical plane at various angles. Determine the magnitude of the maximum moment (Nm) it produces about point A.Given that F = 1000 Kn and P = 1434. Determine the following: a. Component of forces F and P b. Moment at Point A, B, C, and D c. Moment at the Tail of Force F d. Moment at the Tail of Force P e. Moment at the Head of Force F f. Moment at the Head of Force p
- The body is in an equal position.m1=15N·m; m2=8N·m; m3=12N·m; m4=? Determine the magnitude of the moment of the pair m4.Determine the moment of each force acting on the handle of the wrench about the z axis. (NOT a axis NOT a axis NOT a axis!!!!!!!!!!!!!!!) Take F1 = { -2i + 4j - 8k } lb, F2 = { 3i + 2j - 6k} lb.The magnitude of the moment of the force F=300i-200j+600k N about the y-axis is.  Select one: a. 240 [N.m] b. 20 [N.m] c. -240 [N.m] d. -20 [N.m]
- 200 N/m T 75 N/m 0.5 m d- -3 m- Determine the required intensity w and dimension d of the right support so that the resultant force and couple moment about point A of the system are both zero.The tower crane is used to lift the 1.8-ton load upwards at a constant speed. The mass center of the 1.4-ton beam BD is at G1, the mass center of the 0.5-ton beam BC is at G2 and the mass center of the 6.8-ton counterweight C is at G3. A) Determine the moment of force exerted by the load, counterweight and beams together around point A and point B. Let counterclockwise rotation be a plus.Express the answers with three value digits, and separate the force moments for point A and point B with a comma. B) To get the correct answer to the calculation in the previous task, should one assume that the tower crane is a rigid body? (choose the right answer) - Yes, but it is always a bad approximation in reality: all bodies are deformable (regardless of size)- Yes, because it is a good approximation, it would only be bad if the load was so heavy that the crane bent significantly- It does not matter, you can assume it or not, you always get the same mathematical equations no matter what you…5b. If lengths a=1.1m, b=4.8m, c=1.1m, d=3.2m, e=1.3m, and f=3.2m, determine the moment (in N*m) caused by force F_A about axis OD. Answer must include 1 place after the decimal point. Negative sign must be included if the rotational tendency about the OD axis (from O to D) is clockwise.
- 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;.Which of the following gives the moment MD about point D of the tensile force TBA exerted by the wire at point B? Note that rB/D = (4i - 6k) m and TBA = (-8i + 6j + 4k) kN and that MD = rB/D x TBA. a. (36.0i + 32.0j + 24.0k) kN-mb. (48.0i + 24.0j + 16.0k) kN-mc. (-36.0i - 32.0j - 24.0k) kN-md. (16.0i - 12.0j -8.0k) kN-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)