The forces P1 = 110lb, P2 = 200lb, and P3 = 150lb are equivalent to a single force R. Determine (a) the magnitude of R; and (b) the coordinates of the point wherethe line of action of R crosses the yz-plane.
Solve for E please Review (MR).= -2.88 kN-m Submit Previous Answers Learning Goal: To determine the location and direction of a single equivalent force for a coplanar force system. The frame shown in (Figure 1) has dimensions H = 3.1 m and L = 0.9 m and is subjected to the forces P1 = 4.5 kN, P2 = 8.5 kN, and P3 = 11.5 KN. Force P3 is applied Ay = 0.4 m down from the top. ✓ Correct Part...
Question 3 Forces F1, F2, F3, and F4 and the moment of a couple Mc are acting on a 3D rigid body as shown in Fig. 3. Convert this force and moment system into a single resultant force passing through Point F and an equivalent turning moment. Calculate both the resultant force at F and the corresponding turning moment as vectors. Further, reduce the force and moment system at F into a wrench resultant and calculate the turning moment of...
Question 1 As shown in Figure 1, the belt passing over the pulley is subjected to two forces F1 and F, each having a magnitude of 40 N. Fl acts in the-k direction. Take θ-45°. a) Replace these forces by an equivalent force and couple at point A. Express the result in vector form in the coordinate system shown. Replace the force-couple at point A by a single resultant force R passing through b) pulley and determine the y and...
Two racquetballs, each having a mass of 181 g, are placed in a glass jar as shown in in the figure below. Their centers lie on a straight line that makes a 45° angle with the horizontal 145° (a) Assume that the walls are frictionless and determine P1, P2, and P3 (b) Determine the magnitude of the force exerted by the left ball on the right ball Two racquetballs, each having a mass of 181 g, are placed in a...
Note that the angles are the direction cosine from the notes corresponding to α, β, and y. 1. Four forces are applied at a point in a body as shown Determine the F4xN 30 magnitude and direction (angles ee,, and e) of the resultant R of the four orces. i40° 50 40 Three forces are applied with cables to the anchor block shown in Fig. P2-98. Determine (a) The magnitude and direction (angles θ*, ey, and θ-' of the resultant...
Knowing that 0 = 21° and Mc = 520 ft·lb, reduce the force-couple system shown to a single equivalent force, and determine where the line of action of that force intersects member CB measured from C. Enter the distance from C to the line of action of the single equivalent force below in ft to the nearest 0.01 ft. Enter a positive number if the intersection is right of point Cand a negative number if the intersection is left of...
The forces and couple moment below are to be reduced to a single resultant force. Determine the magnitude and direction of the resultant force and perpendicular distance from Point A to the line of action of the resultant. Use (a) scalar formulation and (b) vector formulation to solve this problem.
3.38- The resultant of the forces P1, P2, and the couple C is the force R = 8k lb acting at point A (R is not shown in the figure). Determine P1, P2, and C. PI x5 in.15 in. Figure P3.38, P3.39
Consider three forces P1, P2, and P3 where P1 31 lb, P2 56 lb, and P3 57 lb 28 in 84 in 96 in P2 80 in P1 OP3 90 in 48 in References eBook &Resources Difficulty: Easy DEPENDENT MULTI-PART PROBLEM ASSIGN ALL PARTS value: 4.00 points Determine the x and y components of P3. (Round the final answers to a single decimal place.) Ib Ib
USING C++: Referring to the header file below named coord2d.h, Implement each of the 8 operator overloads (operators: <<, [], >, <, two versions of +, two versions of *) #ifndef COORD2D_H #define COORD2D_H #include <iostream> using namespace std; //implement a class that keeps track of the coordinates of a point in the X-Y plane class coord2d { //overload the << operator so that if p is of type "coord2d" then "cout<<p"; //will print out (x_coord, y_coord) //e.g. if p.x_coord=3.4,...