(a) :- Torque or moment = Force perpendicular to the line joining the points × distance between the lines.
Or, Moment = 20 N × 3 m
= 60 N m
(b) :-
Since the force tends to rotate point B in clockwise direction around the point A , so moment is CW.
A force of 20 N is applied vertically at point B as shown below. 3 m...
The 2.9-kN force F is applied at point A. (a) Compute the moment of F about point O, expressing it both as a scalar (positive if CCW, negative if CW) and as a vector quantity. (b) Determine the coordinates of the points on the x- and y-axes about which the moment of F is zero. 1.7 m, a 3,b 7. AssumexA 1.4 m, yA y, m A (x y a F b ----x, m
A force P is applied on the crate at A as shown. Determine(a) the moment of the force P about C,(b) the magnitude and sense of the vertical force applied at E that creates the same moment about C,(c) the magnitude and direction (from horizontal) of the smallest force applied at E that creates the same moment about C.If P=500 N, a=25°, a=300 mm, b=500 mm, c=350 mm, d=50 mma) Moment of P about C(N · m, 3 sigfig, CW+)=b)...
3. A 350-N force is applied at A as shown. Determine: a) The moment of the 350-N force about D. b) The smallest force applied at B that creates the same moment about D. (8 points) -100 mm 200 mm D 200 mm 450 2504 А 350N
A force of 100 N is applied to the point A of a 20 kg, 2 m beam when it is resting as shown. Determine the angular acceleration, when (a) θ = 0o, (b) θ = 45o A force of 100 N is applied to the point A of a 20 kg, 2 m beam when it is resting as shown. Determine the angular acceleration, when (a) = 0o, (b) = 45o.
3. Two forces and a moment act on the bracket below. a) Find the resultant force. b) Replace the given system with an equivalent force-couple system acting at B. Sketch the result in the space provided below. Replace the given system with an equivalent system consisting of only a force whose line of action intersects the x axis. Determine the coordinate, d, of the point of intersection on the x axis. Sketch the result in the space provided below.4 SOON...
For the beam shown below: the applied moment at point A is M = 15 kN.m, the applied load at point C is P = 22 kN, the UDL applied from point D to point E is w = 12 kN/m. (a) Find the vertical reaction at point B. Write the value in the Answer box below (unit: kN). (b) Draw the shear force and bending moment diagrams. Label all critical points. P M с E A 3 m 3...
8 The force Fi 4 N parallel to axis Oz is 2 applied at point A of the tetrahedron B OABD. Force F2-8,6 N is applied at point D (as shown at the figure). Determine the total moment of the force system about F center O, if distances OA OB-OD 5 m. Fa
Please solve all the questions. 120 N Question No. 1: A 120-N force is applied to the control rod AB as shown. Knowing that the length of the rod is 0.6 m: 1. Determine the moment of the force about point B by resolving the force into: a. components along AB and in a direction perpendicular to AB. b. horizontal and vertical components. 2. Determine the horizontal force at A which creates the same moment. Question No. 2: Knowing that...
(4) A 100 lb force is applied on the plate at B as shown and the force is in the vertical y-z plane. Determine the moment of this force about point A by the geometric method. Ans: À, =-96.4 – 173.2j-100k lb-in 60° 100 lb
P A a koto C a B b A 475 N force is applied at A to the rolled-steel section shown. Replace that force with an equivalent force-couple system at the center C of the section. If a = 150 mm, b = 75 mm, c = 75 mm. Magnitude of the force C (N, 3 sigfig) a B Lo b A 475 N force is applied at A to the rolled-steel section shown. Replace that force with an equivalentforce-couple...