Find (graphically) the resultant magnitude and direction (give the direction angle) for the four concurrent forces. Scale:1" = 20 lb (verify in your print that the 20 lb vector force measures 1")
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1. A vector u has a magnitude of 16 and a direction of 0°. A vector v has a magnitude of 12 and a direction of 80°. Find the direction and magnitude of u v to the nearest whole values. 2. Two forces with magnitudes of 20 pounds and 32 pounds are applied to an object. The magnitude of the resultant force is 22 pounds. Find the measurement of the angle between the resultant vector and the vector with 20...
3. Vector A has a magnitude of 23 units and points in the positive y-direction. Vector B is added to A, giving a resultant vector A + B that points in the negative y-direction with a magnitude of 13 units. What is the magnitude and direction of B?4. As you will see in a later chapter, forces are vector quantities, and the total force on an object is the vector sum of all forces acting on it. In the figure below, a force F1...
Part A. Geometric Addition What is the magnitude and direction of the resultant vector, R, when the parallelogram law is applied to A and B? Part B. Component addition of vectors What is the resultant vector, R, obtained by adding vectors C and D? Part C. Addition of more than two vectors For the vector sum R = A + B + C + D, what are the magnitude and direction of the resultant R? Learning Goal: To use geometric...
8. Vector ? has a magnitude of 35.0 units and points in the direction 325° counterclockwise from the positive x axis. Calculate the x and y components of this vector. 9. A vector has an x component of -25.0 units and a y component of 40.0 units. Find the magnitude and direction of this vector. 10. A force ? 1 of magnitude 6.00 newtons acts on an object at the origin in a direction θ = 30.0° above the positive...
Find the resultant magnitude, its direction, angle, and location of the given forces. (show the results on the diagram below)
Find the magnitude and direction of the resultant vector of the following four vectors. Calculate the angle relative to x axis. Vector A: 10 m, 30* above the +x axis Vector B: 12 m, 15° left of +y axis Vector C: 7 m, 20° below the -x axis Vector D: 15 m, 40* right of -y axis
PART II: THE RESULTANT OF ADDING THREE FORCES(VECTORS). In this activity consider vector & as force (F), vector bas force (F), and vector & as force (). While vector 3 is the resultant vector (FR) 1- Select explore 20" from the option window at the bottom of the graph. 2- Drag the origin of the graph paper to the middle as shown in figure (6) 3- Drag vector a, b, and to the graph paper. 4- Fix the magnitude and...
1. Determine the magnitude R of the resultant and the angle between the line of action of the resultant and the x-axis for the two forces shown F1 =400 N 6 60° F2 300 N 2. Determine the magnitude R of the resultant and the angle between the line of action of the resultant and the x axis for the four forces shown 12 F4 10 kN 12 3. Three forces are applied to a bracket mounted on a post...
Problem 8 (will be used as a homework) Determine the resultant force R of the three concurrent forces. Express the resultant as a Cartesian vector (i.e., R Rxi+ Ry j), indicate its magnitude IR, and the direction angle 0 measured counterclockwise from the F-300N F2 450 N F3 600N 45° r positive x-axisS.
1. Draw the following vectors and the resultant and calculate the magnitude and direction. Velocities of: 3m/s at 18° and 7m/s at 115° when acting simultaneously on a point. (7.27m/s at 90.8°) 2. A ship heads in a direction of E 20°S at a speed of 20 knots while the current is 4 knots in a direction of N 30° E. Draw the two vectors and the resultant. [21.07 knots, E 9.22° S] 3. An object is acted upon by...