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The bulldozer exerts a force F = 2i (kip) at A. wnat are the tensions in...
Please do show every bit of work out Thanks Question 1 Figure 1 Figure 1 represents...
Please do show every bit of work out
Thanks
Question 1 Figure 1 Figure 1 represents a bulldozer exerting a force of F- 2i kN at point A. If the tension a The positions of point C with respect to point D, and of point B with respect to in cable AB is 780.31 N, calculate: point C b The distances between point B and point D and between point C and point A c The unit vectors that determine...
4) If the distributed load intensity w = 1.5 kip/ft, and the concentrated force F =...
4) If the distributed load intensity w = 1.5 kip/ft, and the concentrated force F = 4.8 kip, determine the internal bending moment at point Din kip.ft. Please pay attention: the numbers may change since they are randomized. Your answer must include 2 places after the decimal point. The sign of your answer must agree with the internal reaction sign convention learned in this chapter. 6 ft 6 ft . 61 611 Your Answer: Answer 5) If the distributed load...
The inclined pole is subjected to a 5 kN magnitude force vector F acting from point...
The inclined pole is subjected to a 5 kN magnitude force vector F acting from point B towards point C. (a) Determine the angle that exists between B (1,5,6) m the force vector F and the pole AB (b) Determine the magnitude of the component of the force vector F that acts parallel to the pole AB (c) Determine the magnitude of the component of the force vector that acts perpendicular to the pole AbB C (4, 3, 0) m...
Just q6 please asap Le mass OL the Dox and the normal force exerted On IL...
Just q6 please asap
Le mass OL the Dox and the normal force exerted On IL DY the inclined surface. A free body diagram is essential. (5) SOP 6. Calculate the tensions in cables AB, AC and AD required to support the 15 N flowerpot. Draw a suitable free-body diagram (7) Type to search
(25pts) The crate weighs 500lbf. The coordinates are as shown. The vectors for the tensions in...
(25pts) The crate weighs 500lbf. The coordinates are as shown. The vectors for the tensions in cables FAB and Fac are given below: 1. FAB -FAB FAB 13 AB 2 ft (2m ji + ( 6.-jmi 3 OJA V(2-0(-6-0)(3-0 -25.el-6Facl +클Fack FAC FAC 4 ft a) Find the vector for the force in the strut FAD b) Solve for the magnitudes three forces, FAB, Fac and FAD. Write down how you set up your system of equations if you are...
2.87 Problems55 the magnitsde and direction of the force F 2.81 A force acts at the...
2.87
Problems55 the magnitsde and direction of the force F 2.81 A force acts at the origin of a coordinate system in a direction l by the angles 869.3 and e 57.9. Knowing that the y compo- nent of the force is -174.0 lb, determine (a) the angle ,, (b) the o components and the magnitude of the foree. 2.82 A force acts at the origin of a coordinate system in a direction defined by the angles &-70.9 and &-144.9....
* F, = 50N 6. Two cables AB & AC hold the shown pole in the...
* F, = 50N 6. Two cables AB & AC hold the shown pole in the figure. Determine the angle between the resultant force of (F1 & F2) and the pole. 4 m - 35 N
45. the magnitude of the friction force the rough plane exerts on the block if W-100...
45. the magnitude of the friction force the rough plane exerts on the block if W-100 lb. H -0.5, and F-40tb a. 40.0lb b. 50.0 lb d. 35.0 lb ?. 450 lb 46. Determine the smallest magnitude of force F for which motion ot the block impendsit W- 150 tb and 4, -0.3 a. 50.0 Ib ?. 45.0 lb b. 40.0 lb d. 60.0 lb 47. Select the correct statement. a. The coefficient of static friction is the cosine of...
The line of action of force F passes through point B. Find the moment due to force F about axis AC, given: F̄ = <1...
The line of action of force F passes through
point B. Find the moment due to force
F about axis AC, given:
F̄ = <10, 70, -10> lbs,
AX = 6 ft,
AY = 3 ft,
AZ = 7 ft,
BX = 7 ft,
BY= 5 ft,
BZ = 9 ft,
CX = 5 ft,
CY = 5 ft,
CZ = 1 ft
MAC =
lb·ft
M̄AC=
< , , > lb·ft
Find the moment about points A,
B, C,...
The composite bar is firmly fixed at both ends. The bar is stress-free at 60°F Compute the stress in each material after the 50-kip force 42 in is applied and the temperature is increased to 120°...
The composite bar is firmly fixed at both ends. The bar is stress-free at 60°F Compute the stress in each material after the 50-kip force 42 in is applied and the temperature is increased to 120°F. Use α-6.5 x 10-6/°F for steel and α-1 2.8 x 10-6/°F for aluminum. At what temperature will the aluminum and steel have stresses of equal magnitude after the 50-kip force is applied? Problem 4(25 Points) The rigid bar ABCD is supported by a pin...
Please do show every bit of work out
Thanks
Question 1 Figure 1 Figure 1 represents a bulldozer exerting a force of F- 2i kN at point A. If the tension a The positions of point C with respect to point D, and of point B with respect to in cable AB is 780.31 N, calculate: point C b The distances between point B and point D and between point C and point A c The unit vectors that determine...
4) If the distributed load intensity w = 1.5 kip/ft, and the concentrated force F = 4.8 kip, determine the internal bending moment at point Din kip.ft. Please pay attention: the numbers may change since they are randomized. Your answer must include 2 places after the decimal point. The sign of your answer must agree with the internal reaction sign convention learned in this chapter. 6 ft 6 ft . 61 611 Your Answer: Answer 5) If the distributed load...
The inclined pole is subjected to a 5 kN magnitude force vector F acting from point B towards point C. (a) Determine the angle that exists between B (1,5,6) m the force vector F and the pole AB (b) Determine the magnitude of the component of the force vector F that acts parallel to the pole AB (c) Determine the magnitude of the component of the force vector that acts perpendicular to the pole AbB C (4, 3, 0) m...
Just q6 please asap
Le mass OL the Dox and the normal force exerted On IL DY the inclined surface. A free body diagram is essential. (5) SOP 6. Calculate the tensions in cables AB, AC and AD required to support the 15 N flowerpot. Draw a suitable free-body diagram (7) Type to search
(25pts) The crate weighs 500lbf. The coordinates are as shown. The vectors for the tensions in cables FAB and Fac are given below: 1. FAB -FAB FAB 13 AB 2 ft (2m ji + ( 6.-jmi 3 OJA V(2-0(-6-0)(3-0 -25.el-6Facl +클Fack FAC FAC 4 ft a) Find the vector for the force in the strut FAD b) Solve for the magnitudes three forces, FAB, Fac and FAD. Write down how you set up your system of equations if you are...
2.87
Problems55 the magnitsde and direction of the force F 2.81 A force acts at the origin of a coordinate system in a direction l by the angles 869.3 and e 57.9. Knowing that the y compo- nent of the force is -174.0 lb, determine (a) the angle ,, (b) the o components and the magnitude of the foree. 2.82 A force acts at the origin of a coordinate system in a direction defined by the angles &-70.9 and &-144.9....
* F, = 50N 6. Two cables AB & AC hold the shown pole in the figure. Determine the angle between the resultant force of (F1 & F2) and the pole. 4 m - 35 N
45. the magnitude of the friction force the rough plane exerts on the block if W-100 lb. H -0.5, and F-40tb a. 40.0lb b. 50.0 lb d. 35.0 lb ?. 450 lb 46. Determine the smallest magnitude of force F for which motion ot the block impendsit W- 150 tb and 4, -0.3 a. 50.0 Ib ?. 45.0 lb b. 40.0 lb d. 60.0 lb 47. Select the correct statement. a. The coefficient of static friction is the cosine of...
The line of action of force F passes through
point B. Find the moment due to force
F about axis AC, given:
F̄ = <10, 70, -10> lbs,
AX = 6 ft,
AY = 3 ft,
AZ = 7 ft,
BX = 7 ft,
BY= 5 ft,
BZ = 9 ft,
CX = 5 ft,
CY = 5 ft,
CZ = 1 ft
MAC =
lb·ft
M̄AC=
< , , > lb·ft
Find the moment about points A,
B, C,...
The composite bar is firmly fixed at both ends. The bar is stress-free at 60°F Compute the stress in each material after the 50-kip force 42 in is applied and the temperature is increased to 120°F. Use α-6.5 x 10-6/°F for steel and α-1 2.8 x 10-6/°F for aluminum. At what temperature will the aluminum and steel have stresses of equal magnitude after the 50-kip force is applied? Problem 4(25 Points) The rigid bar ABCD is supported by a pin...
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