For the next 14 questions consider forces acting on the rigid body shown below. FA A40...
3. Three forces are acting on a rigid body as shown in the top view diagram below. F =200 N E=300 N 90 cm 10cm F,=100N (a) Is this body in equilibrium? (b) If not, what is the magnitude and direction of a fourth force which could be applied to the body in order to place the body in equilibrium? (c) Where, along the body, must this fourth force be applied? 11/3/2017 -7-
The figure below shows three forces of magnitude FA=24.1 N, Fe=20.4 N, and Fc=27.2 N acting on an object which is free to rotate about a fixed axis at the point O as shown in the figure. The respective distances from point o are RA=4.5 m, R=2.7 m, and Rc=1.4 m. If the tangential acceleration of point A is ar=2.7, what is the rotational inertia of the object? FA Fc 135°C 160° 90° Fa B Select one O 75,00 kg...
The figure below shows three forces of magnitude FA=24.1 N, FB=20.4 N, and FC=27.2 N acting on an object which is free to rotate about a fixed axis at the point O as shown in the figure. The respective distances from point O are RA=4.5 m, RB=2.7 m, and RC=1.4 m. If the tangential acceleration of point A is aT=2.7, what is the rotational inertia of the object? F 금 A FC C 135° A 160° 90° B
The figure below shows three forces of magnitude FA=22.1 N, FB=23.1 N, and FC=27.3 N acting on an object which is free to rotate about a fixed axis at the point O as shown in the figure. The respective distances from point O are RA=4.6 m, RB=3.5 m, and RC=1.0 m. If the tangential acceleration of point A is aT=2.1, what is the rotational inertia of the object? The figure below shows three forces of magnitude Fa=22.1 N, FB=23.1 N,...
The figure below shows three forces of magnitude FA=24.1 N, F8=20.4 N, and Fc=27.2 N acting on an object which is free to rotate about a fixed axis at the point O as shown in the figure. The respective distances from point o are Ra=4.5 m, Rg=2.7 m, and Rc=1.4 m. If the tangential acceleration of point A is ar=2.7, what is the rotational inertia of the object? FC С 135° 160° 90° B Select one: 75.00 kg m^2 34.62...
3. Using the image, answer the questions below. The rigid body is shown in red. The distributed force is shown in black wy - 60 lb/ft wy - 40 lb/ Wy - 20 lb/lt c 8 41 a. Draw on the image to show how you sectioned the distributed load. You can also just state the sections but give detailed information. b. Determine the resultant force for each section. c. Determine where each resultant force acts on the rigid body...
Consider the free-body diagram shown below. Use the numerical value for the individual forces and the approximate value of g (10 m/s/s) to determine the acceleration of the object (in units of m/s/s). Assign a negative number to the acceleration if it is leftward or downward. Enter a numerical answer. ##.##! Fnorm = 40 N Ffrict = 12 N La = 20 N Fgray = 40 = 40 N View Objectives Quit Assignment
The figure below shows three forces of magnitude FA=22.1 N, FB=23.1 N, and FC=27.3 N acting on an object which is free to rotate about a fixed axis at the point O as shown in the figure. The respective distances from point O are RA=4.6 m, RB=3.5 m, and RC=1.0 m. If the tangential acceleration of point A is aT=2.1, what is the rotational inertia of the object? F A FC С 1359 A 160° O 90° Fв B
The figure below shows three forces of magnitude FA=22.1 N, FB=23.1 N, and FC=27.3 N acting on an object which is free to rotate about a fixed axis at the point O as shown in the figure. The respective distances from point O are RA=4.6 m, RB=3.5 m, and RC=1.0 m. If the tangential acceleration of point A is aT=2.1, what is the rotational inertia of the object? F Fc С 135°C A 160° 90° FB B
The figure below shows three forces of magnitude FA=25.3 N, F3=21.3 N, and Fc=28.8 N acting on an object which is free to rotate about a fixed axis at the point O as shown in the figure. The respective distances from point o are RA=4.6 m, Rg=3.4 m, and Rc=2.0 m. If the tangential acceleration of point A is ar=2.9, what is the rotational inertia of the object? FC С 135° A 160° 90° FB B