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Q1. The beam below has two forces (loads) applied Fi and F2 each weighing 38 lb....
Q.6) Three forces Fi = 100 lb, F2 = 90 lb, and F3 = 120 lb,...
Q.6) Three forces Fi = 100 lb, F2 = 90 lb, and F3 = 120 lb, and the moment C= 200 lb.ft are applied to the box below. Find the wrench that is equivalent to the force system and the coordinates of the point of the intersection of the wrench and x-y plane. 6 ft 3 ft 4 ft
Q1) 250 mm 200 mm 730° F1 250 mm B F2 D - The beam is...
Q1) 250 mm 200 mm 730° F1 250 mm B F2 D - The beam is hinged at C and connected to D with a cable AD. For F1=343N and F2=435 N, The tension in cable AD is ? -The magnitude of horizontal reaction at Cis -The vertical reaction at Cis -The resultant of applied loads
As shown, a uniform beam of length d = 5.70 ft and weight 49.2 lb is...
As shown, a uniform beam of length d = 5.70 ft and
weight 49.2 lb is attached to a wall with a pin at point
B. (Figure 1) A cable attached at point A
supports the beam. The beam supports a distributed weight
w2 = 24.0 lb/ft . If the support cable can sustain a
maximum tension of 300 lb , what is the maximum value for
w1? Under this maximum weight, what is
FBy, the vertical component of the...
Two forces are applied at a point in a body as shown below = 120 lb...
Two forces are applied at a point in a body as shown below = 120 lb F, = 150 lb 60% 14.5 ft O 2 ft 6 fL 15ft Determine the Cartesian vector form of F2. Your final answer should be presented as shown below. F2= { j. k} (units) Bonus: If F1 = { 29.4 | + 117.7 3 + 88.3 k} lb What is the angle 0 between forces F1 and F2?
If two loads are applied to a beam as shown in the a The weight If the weight of the beam is rand...
If two loads are applied to a beam as shown in the a The weight If the weight of the beam is random, the of the beam itself contributes to the bending moment. Assume that the beam is of unitorm thickness and density so that the resulting load is uniformly distributed on the beam. load from the weight is aso random; denote this load by W (kip-t). the fixed loads X, and X2 are independent rv's with means 4 and...
4.47 750 N 4.46 Knowing that the tension in wire BD is 1300 N, determine the...
4.47
750 N 4.46 Knowing that the tension in wire BD is 1300 N, determine the reac 150 mm tion at the fixed support C of the frame shown. 250 mm 500 mm 4.47 Determine the range of allowable values of the tension in wire BD if the magnitude of the couple at the fixed support C is not to exceed 100 N m. 150 N 600 mm 4.48 Beam AD carries the two 40-lb loads shown. The beam is...
Two vertical forces are applied to a beam with the cross section identified in fig below...
Two vertical forces are applied to a beam with the cross section identified in fig below Calculate the reaction forces at support and moment of Inertia of the cross section. 3 in. 3 in. 3 in. 6 in 2 in. 25 kips 25 kips A B -35 in- 20 in. 20 in
Knowing that F1=F2=137 lbf, and that the beam element below has a cross section of 6...
Knowing that F1=F2=137 lbf, and that the beam element below has
a cross section of 6 inch2 and is made of Aluminum (has
a Young's Modulus of 7*107 and a poisson's ratio of
0.33). Find the reaction forces in all THREE supports when ONLY F1
is applied and then when only F2 is applied.
LA i r 8.5 n 2in had reachsn forces when only), l's apple1 When s appied on/
Select a suitable wide flange section to support the beam loads shown in the figure below....
Select a suitable wide flange section to support the beam loads shown in the figure below. Use ASTM A992 steel and allowable stresses of 0.66 Sy for bending and 0.40 Sy for shear. Be sure to generate a list of candidate beams from which, you will choose the lightest. Determine the factor of safety in bending for the beam you select. Find the deflection at the end of the overhang using the beam you selected. What is the total weight...
5.- A simple beam AB supports two concentrated loads P at the positions shown in the...
5.- A simple beam AB supports two concentrated loads P at the positions shown in the figure in configuration usually called four-point bending. A support C at the midpoint of the beam is positioned at a distance d below the beam before the loads are applied. Assuming that d = 10 mm, L = 6 m, E = 200 GPa, and I = 198 × 106 mm24, calculate the magnitude of the loads P so that the beam just touches...
Q.6) Three forces Fi = 100 lb, F2 = 90 lb, and F3 = 120 lb, and the moment C= 200 lb.ft are applied to the box below. Find the wrench that is equivalent to the force system and the coordinates of the point of the intersection of the wrench and x-y plane. 6 ft 3 ft 4 ft
Q1) 250 mm 200 mm 730° F1 250 mm B F2 D - The beam is hinged at C and connected to D with a cable AD. For F1=343N and F2=435 N, The tension in cable AD is ? -The magnitude of horizontal reaction at Cis -The vertical reaction at Cis -The resultant of applied loads
As shown, a uniform beam of length d = 5.70 ft and
weight 49.2 lb is attached to a wall with a pin at point
B. (Figure 1) A cable attached at point A
supports the beam. The beam supports a distributed weight
w2 = 24.0 lb/ft . If the support cable can sustain a
maximum tension of 300 lb , what is the maximum value for
w1? Under this maximum weight, what is
FBy, the vertical component of the...
Two forces are applied at a point in a body as shown below = 120 lb F, = 150 lb 60% 14.5 ft O 2 ft 6 fL 15ft Determine the Cartesian vector form of F2. Your final answer should be presented as shown below. F2= { j. k} (units) Bonus: If F1 = { 29.4 | + 117.7 3 + 88.3 k} lb What is the angle 0 between forces F1 and F2?
If two loads are applied to a beam as shown in the a The weight If the weight of the beam is random, the of the beam itself contributes to the bending moment. Assume that the beam is of unitorm thickness and density so that the resulting load is uniformly distributed on the beam. load from the weight is aso random; denote this load by W (kip-t). the fixed loads X, and X2 are independent rv's with means 4 and...
4.47
750 N 4.46 Knowing that the tension in wire BD is 1300 N, determine the reac 150 mm tion at the fixed support C of the frame shown. 250 mm 500 mm 4.47 Determine the range of allowable values of the tension in wire BD if the magnitude of the couple at the fixed support C is not to exceed 100 N m. 150 N 600 mm 4.48 Beam AD carries the two 40-lb loads shown. The beam is...
Two vertical forces are applied to a beam with the cross section identified in fig below Calculate the reaction forces at support and moment of Inertia of the cross section. 3 in. 3 in. 3 in. 6 in 2 in. 25 kips 25 kips A B -35 in- 20 in. 20 in
Knowing that F1=F2=137 lbf, and that the beam element below has
a cross section of 6 inch2 and is made of Aluminum (has
a Young's Modulus of 7*107 and a poisson's ratio of
0.33). Find the reaction forces in all THREE supports when ONLY F1
is applied and then when only F2 is applied.
LA i r 8.5 n 2in had reachsn forces when only), l's apple1 When s appied on/
Select a suitable wide flange section to support the beam loads shown in the figure below. Use ASTM A992 steel and allowable stresses of 0.66 Sy for bending and 0.40 Sy for shear. Be sure to generate a list of candidate beams from which, you will choose the lightest. Determine the factor of safety in bending for the beam you select. Find the deflection at the end of the overhang using the beam you selected. What is the total weight...
5.- A simple beam AB supports two concentrated loads P at the positions shown in the figure in configuration usually called four-point bending. A support C at the midpoint of the beam is positioned at a distance d below the beam before the loads are applied. Assuming that d = 10 mm, L = 6 m, E = 200 GPa, and I = 198 × 106 mm24, calculate the magnitude of the loads P so that the beam just touches...
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