In the figure (Figure 1), the following EN and XY coordinates for points A through C...
The following EN and XY coordinates for points A through C are given. In a 2D conformal coordinate transformation, to convert the XY coordinates into the EN system, what are the: (a) Scale factor? (b) Rotation angle? (c) Translations in X and Y? (d) Coordinates of points C in the EN coordinate system? State Plane Coordinates (m) Arbitrary Coordinates (ft) Point 111,493.468 111,844.860 719,542.829 4873.67 6609.04 720745 719,899.341 6402.92 7041.22 603723
The following EN and XY coordinates for points A...
Figure © 2012 103 m 4m 12 11 03 m Use the frame (Figure 2) to calculate each requested member transformation matrix. Part A - Frame member 1 Complete the displacement transformation matrix, T, for frame member 1. Express all entries to three significant figures. View Available Hint(s) Part B - Frame member 2 Complete the displacement transformation matrix for frame member 2 Express all entries to three significant figures. View Available Hint(s) Part C-Frame member 3 Complete the force...
Part A Enter coordinates of point A Figure 1 of 1 Enter coordinates separated by comma: ΡΟ ΑΣΦ | 11 vec ? mm. F-400N 6 m Submit Previous Answers Request Answer * Incorrect; Try Again: 2 attempts remaining 5 m Part B Enter coordinates of point B Enter coordinates separated by comma: Figure 1 of 1 190 AED 11 vec h ? A mm F400N Submit Request Answer Part position vector from A to B Part position vector from A...
Consider the beam shown in (Figure 1). Suppose that M = 75 kft. Er is constant. Solve this problem using the moment-area theorems. Figure 1 of 1 -15 ft 60k- 9 ft P De the angles and deviations betwo Part B Determine the displacement at C measured upward. Express your answer using three significant figures. View Available Hint(s) I AEP ! vec Ik-ft Submit Part 1 of 1 Determine the slope at C measured counterclockwise from the positive r axis....
Consider the gable frame shown in (Figure 1). Assume that A, B, and C are pin connections. The purlin loads such as D and E are applied perpendicular to the center line of each girder. Suppose that Fi = 400 lb, F2 = 600 lb, and F3 = 750 lb. Part A Determine the r and y components of the reaction at A. Express your answers using three significant figures separated by a comma. View Available Hint(s) IVO AQ 1...
Part A Find TA, the tension in string A. The figure (Figure 1) shows a model of a crane that may be mounted on a truck.A rigid uniform horizontal bar of mass mi80.0 kg and length L 6.00 m is supported by two vertical massless strings. String A is attached at a distance d 2.00 m from the left end of the bar and is connected to the top plate. String B is attached to the left end of the...
To set up and solve the equations of motion using rectangular coordinates The 2-kg collar shown has a coefficient of kinetic friction uk= 0.18 with the shaft. The spring is unstretched when s=0 and the collar is given an initial velocity of vo = 17.1 m/s. The unstretched length of the spring is d=1.2 m and the spring constant is k=8.70 N/m. Part B - The acceleration of the collar after it has moved a certain distance What is the...
Part A- Position vector trom A to 8 Using the dimensions in the figure ind the posuton vector from A to Bin compon Express your answers, separated by commas, to dree significant figures Learsing Goal: To find a postion vector between two arbitrary points As shown, tno cabies coenect three points Ch below A by a distance C2.30 ft and connected toe A by a cabile 6.94 ft long Cable AC ores an ange 33,0 with the positve y ads...
Part A Evaluate the integral: I= j (+5 + 5) (8 (t) + 128 (t – 1)) dt. Express your answer using three significant figures. View Available Hint(s) VO AXO Ut vec 2 ? Submit Part B Evaluate the integral: I = ſ t® [8 (t) + 8(t + 1.8) + 8(t – 3)] dt. Express your answer using three significant figures. View Available Hint(s) ran Use step functions to write the expression for the function shown in (Figure 1)....
Problem 20.66 MC An electric field 2.3010 N/C to the right causes a bal with mass m 20g and charge q 45 nC as shown in (Figure 1) to hang at an angle that we wish to find. To help you find the angle rst ind the z-component of the string's tension Express your answer using three significant figures. Regardless of direction enter your answer as positive. 1 of 1 Now find the y-component of the string's tension. Express your...