Homework Answers
110 lb L M 45 lb M-180 lb.in F = 26 lb a = 56 deg...
110 lb L M 45 lb M-180 lb.in F = 26 lb a = 56 deg L=12 in d6.5 in Replace the shown forces and couples by an equivalent force couple system at point C. Specify the magnitude and the direction of the resultant force measure clockwise from the negative xos. Answer.
| 10 lb y F L ВІ M 45 lb M = 144 lb.in F =...
| 10 lb y F L ВІ M 45 lb M = 144 lb.in F = 25 lb a = 52 deg L = 14 in d = 6.7 in Replace the shown forces and couples by an equivalent force couple system at point C. Specify the magnitude and the direction of the resultant force measured clockwise from the negative x axis.
please show all work clearly Problem 1 10 lb y F L ВІ M 45 lb...
please show all work clearly
Problem 1 10 lb y F L ВІ M 45 lb M = 194 lb.in F = 36 lb a = 53 deg L = 12 in d = 7.2 in Replace the shown forces and couples by an equivalent force couple system at point C. Specify the magnitude and the direction of the resultant force measured clockwise from the negative x axis. Answer:
The hook and spring assembly shown in the figure are equilibrium, calculate: F. lb k lb/ft...
The hook and spring assembly shown in the figure are equilibrium, calculate: F. lb k lb/ft А (1) Falb В 02 2 ft F3 lb COLLAPSE IMAGES F1 = 110 lb F3 = 52 lb 01 - 21 deg 02 - 35 deg k = 1506 lb/ F2 = 98 lb The magnitude of the resultant force. Ib ENTER 3 tries remaining. 1 points) possible The orientation counter-clockwise from the positive x axis of the spring. deg ENTER 3 tries...
Consider the following picture. goA W lb COLLAPSE IMAGES F2 = 31 lb W=93 b =...
Consider the following picture. goA W lb COLLAPSE IMAGES F2 = 31 lb W=93 b = 42 deg Find the magnitude of the force F, to keep the system in equilibrium. ENTER 3 tres remaining points) Sossible Find the direction of the force F, measured counter clockwise from the positive X-axis to keep the system in equilibrium deg ENTER stries remaining points possible
Problem 2 (10 points) Replace the forces acting on the beam cross section by an equivalent...
Problem 2 (10 points) Replace the forces acting on the beam cross section by an equivalent resultant force and specify where the resultant's line of action intersects the x-axis measured from O. Show your work clearly including the equation(s) that you use. Give your equivalent resultant force in terms of magnitude and direction measured counterclockwise from the +x-axis. Use 705 lb, 855 lb, 755 lb, 225 lb instead of 600 lb, 850 lb, 750 lb, 200 lb. Let a 5...
Replace the forces acting on the L-shaped bracket with the following force-couple systems. Neglect the thickness...
Replace the forces acting on the L-shaped bracket with the following force-couple systems. Neglect the thickness of the bar in your calculations. (Express the resultant forces in vector form in newtons.) 290 NA 190 mm 480N 190 mm cDE I 190 mm 190 mm 190 N (a) an equivalent force-couple system that acts at point A Indicate the magnitude in N.m and direction of the couple moment, magnitude Nm direction -Select- (b) an equivalent force-couple system that acts at point...
Figure 2 of 3 Part C - Analyzing another force-couple system on a bracket The same...
Figure 2 of 3 Part C - Analyzing another force-couple system on a bracket The same bracket and force-couple system as that in Part B (F=159 lb, F = 53 lb, and M-590 lb-ft) is set up again, only this time, the resultant force is to be applied to the horizontal member CB.(Figure 2)Replace this force and couple system with an equivalent force by specifying the magnitude of the force, the direction in which the force acts, and where the...
Three forces acting on a spherical mass M are depicted in the diagram below. 60 2...
Three forces acting on a spherical mass M are depicted in the diagram below. 60 2 30 O 20 1 -20 -30-20-10 θ 10 20 30 40 50 60 70 80 Force, Horizontal-component (N) A. Calculate the magnitude and direction (i.e., the angle with respect to the positive H-axis, measured positive as counter-clockwise) of the total force acting on M. Notice that the arrows representing the forces end on grid intersections. Magnitude: 50 N 9 2 5 9 Direction: 10...
Please answer both if possible, thank you! 18 kN/m 12 kN/m 6 kN/m Fn = 300...
Please answer both if possible, thank you!
18 kN/m 12 kN/m 6 kN/m Fn = 300 N 12.AN/TITTTTTT6kN/m 0.5 m Fc = 225N 3 m .-3 m . 6 m Fig. for Q.2 0.5 m Fig. for Q.1 1. Two forces are acting on Point A along the direction as shown. Convert each force into Cartesian vector form. Show the various steps of your calculation. Then determine the magnitude and coordinate direction angles of the resultant. 15 Points 2. Replace...
110 lb L M 45 lb M-180 lb.in F = 26 lb a = 56 deg L=12 in d6.5 in Replace the shown forces and couples by an equivalent force couple system at point C. Specify the magnitude and the direction of the resultant force measure clockwise from the negative xos. Answer.
| 10 lb y F L ВІ M 45 lb M = 144 lb.in F = 25 lb a = 52 deg L = 14 in d = 6.7 in Replace the shown forces and couples by an equivalent force couple system at point C. Specify the magnitude and the direction of the resultant force measured clockwise from the negative x axis.
please show all work clearly
Problem 1 10 lb y F L ВІ M 45 lb M = 194 lb.in F = 36 lb a = 53 deg L = 12 in d = 7.2 in Replace the shown forces and couples by an equivalent force couple system at point C. Specify the magnitude and the direction of the resultant force measured clockwise from the negative x axis. Answer:
The hook and spring assembly shown in the figure are equilibrium, calculate: F. lb k lb/ft А (1) Falb В 02 2 ft F3 lb COLLAPSE IMAGES F1 = 110 lb F3 = 52 lb 01 - 21 deg 02 - 35 deg k = 1506 lb/ F2 = 98 lb The magnitude of the resultant force. Ib ENTER 3 tries remaining. 1 points) possible The orientation counter-clockwise from the positive x axis of the spring. deg ENTER 3 tries...
Consider the following picture. goA W lb COLLAPSE IMAGES F2 = 31 lb W=93 b = 42 deg Find the magnitude of the force F, to keep the system in equilibrium. ENTER 3 tres remaining points) Sossible Find the direction of the force F, measured counter clockwise from the positive X-axis to keep the system in equilibrium deg ENTER stries remaining points possible
Problem 2 (10 points) Replace the forces acting on the beam cross section by an equivalent resultant force and specify where the resultant's line of action intersects the x-axis measured from O. Show your work clearly including the equation(s) that you use. Give your equivalent resultant force in terms of magnitude and direction measured counterclockwise from the +x-axis. Use 705 lb, 855 lb, 755 lb, 225 lb instead of 600 lb, 850 lb, 750 lb, 200 lb. Let a 5...
Replace the forces acting on the L-shaped bracket with the following force-couple systems. Neglect the thickness of the bar in your calculations. (Express the resultant forces in vector form in newtons.) 290 NA 190 mm 480N 190 mm cDE I 190 mm 190 mm 190 N (a) an equivalent force-couple system that acts at point A Indicate the magnitude in N.m and direction of the couple moment, magnitude Nm direction -Select- (b) an equivalent force-couple system that acts at point...
Figure 2 of 3 Part C - Analyzing another force-couple system on a bracket The same bracket and force-couple system as that in Part B (F=159 lb, F = 53 lb, and M-590 lb-ft) is set up again, only this time, the resultant force is to be applied to the horizontal member CB.(Figure 2)Replace this force and couple system with an equivalent force by specifying the magnitude of the force, the direction in which the force acts, and where the...
Three forces acting on a spherical mass M are depicted in the diagram below. 60 2 30 O 20 1 -20 -30-20-10 θ 10 20 30 40 50 60 70 80 Force, Horizontal-component (N) A. Calculate the magnitude and direction (i.e., the angle with respect to the positive H-axis, measured positive as counter-clockwise) of the total force acting on M. Notice that the arrows representing the forces end on grid intersections. Magnitude: 50 N 9 2 5 9 Direction: 10...
Please answer both if possible, thank you!
18 kN/m 12 kN/m 6 kN/m Fn = 300 N 12.AN/TITTTTTT6kN/m 0.5 m Fc = 225N 3 m .-3 m . 6 m Fig. for Q.2 0.5 m Fig. for Q.1 1. Two forces are acting on Point A along the direction as shown. Convert each force into Cartesian vector form. Show the various steps of your calculation. Then determine the magnitude and coordinate direction angles of the resultant. 15 Points 2. Replace...
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