Draw the most appropriate set of coordinate axes for this problem (Figure 1 below).
Draw the most appropriate set of coordinate axes for this problem (Figure 1 below).
Which set of coordinate axes is the most convenient to use in this problem?
5. Draw a set of coordinate axes on a piece of graph paper. Label the x axis“Output” (0 to 20 units) and the y axis “Cost” (0 to 20 units). Plot the following (x, y) points on your graph: (0, 4); (2, 6); (4, 7); (7, 8); (9, 9); (11, 11); (13, 14). Connect these points with a smooth curve and label it “Total Cost.” Working from this curve, construct a total fixed cost curve and total variable cost curve...
Question 1 A plane frame is loaded as shown in the figure below. The global coordinate axes are shown in the figure. For both elements, E = 30000 ksi, I-1000 in4 and A-100 in2. Determine all nodal displacements, nodal rotations and member end forces (including moments) for both members. Label member end forces in a free body diagram 1000 lb/ft 40 ft 45 30 ft
Sketch a set of coordinate axes and plot the given point. Answers:
17) (10 pts) Draw the FBDs for this problem. Include the choice of coordinate axes and label all the forces. Details count. There is coefficient of kinetic friction of 0.500 between the tabletop and block A. The rope and the pulley are massless and frictionless. Calculate the acceleration of the system using force analysis. Show all of your work. Object A has mass 15-kg and object B has mass 20-kg. MA тв
2020-03-05 Theory of Production Problem #2: 1. On the same set of axes draw the TP, AP and MP, curves of problem #1 as smooth curves. 2. Explain the shape of the AP, and MP, curves in part (1) in terms of the shape of the TP curve. 2020-03-05 of labour 2. Plot the "TP", and the "AP" and "MP" labour curves 2020-03-05 Theory of Production Problem #3: 1. In terms of "labour" and "land", what does the law of...
Problem 2: Aircraft Example The following figure shows the coordinate axes and forces acting on the aircraft in the longitudinal plane of motion. Assuming that the aircraft is cruising at constant velocity and altitude. Plot the Bode diagram of the following G(s): 1. G(s) representing the aircraft pitch angle response output to the elevator deflection input: O(s) A(s) 1.1057s +0.1900 93 +0.7385s2 + 0.8008s 2. G(s) representing the aircraft altitude response output to the elevator deflection input: H(s) 1.1057s –...
The electric potential depends on x and y as shown, for the coordinate axes, in the figure (the potential does not depend on z). The scale of the vertical axis is set by Vs = 500 V. What is the direction of the electric field? 0.2 V (V) o'z od x(m) y (m)
Exercises 18-20: For each vector: Draw the vector on the axes provided. Find the magnitude and the angle of the vector label an angle 0 of magnitude s g0" to deseribe the direction of the vecton 18. A, 3, A,--2 19. B-2, B,-2 20. С.-о, С,--2 -2 Or Exercises 21-23: Define vector A (5, 30° above the horizontal). Determine the and Ay in the three coordinate systems shown below. Show your work below the figure 21. 22. 23. 45" 30°...
9. On the figure below, label the axes and draw stress/strain curves for the following materials: 1095 quenched and tempered plain carbon steel, fully annealed pure aluminum, high density polyethylene, a graphite fiber, and a elastomer. The relative strengths and ductility's should be accurate.