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the true magnitude and direction of the support forces A and B Find 1000lb -150lb/f 100lb/ft...
Three vectors are shown in the diagram below. Find the resultant vector (magnitude and direction): A...
Three vectors are shown in the diagram below. Find the
resultant vector (magnitude and direction):
A = 120lb @ 37 degrees
B = 160lb @ 143 degrees
C = 100lb @ 240 degrees
Problem #4. Three vectors are shown in the diagram below. Find the resultant vector (magnitude and direction): B - 100D 143° A.- 120 h @ 37" C-100D ) 240 •
5) W, Question 1 Find the magnitude and direction of support reactions
5) W, Question 1 Find the magnitude and direction of support reactions
Determine the magnitude and direction of all support reactions for the pin-jointed structure shown below. Ax=?...
Determine the magnitude and
direction of all support reactions for the pin-jointed structure
shown below.
Ax=?
Ay=?
Dx=?
Dy=?
Md=?
450 b T B 3h C 8 ft 4h 4h D
The simply support beam below is loaded as shown. O = 45° 75 kip 30 kip/ft...
The simply support beam below is loaded as shown. O = 45° 75 kip 30 kip/ft 500 kip-ft me 1 ft 3 ft 1.5 ft 2.5 ft 2.5ft The exact value of the normal force (N), shear force (V), and bending moment (M) at a distance of x=7 feet. Be sure to indicate both magnitude and direction with arrows. (a) FBD and support reactions (b) FBD to find internal forces (c) Calculate N, V, and M at 7 feet
The simply support beam below is loaded as shown. = 45 75 kip 30 kip/ft 500...
The simply support beam below is loaded as shown. = 45 75 kip 30 kip/ft 500 kip-ft mo 1 ft 3 ft 1.5 ft 2.5 ft 2.5ft The exact value of the normal force (N), shear force (V), and bending moment (M) at a distance of x=7 feet. Be sure to indicate both magnitude and direction with arrows. (a) FBD and support reactions (b) FBD to find internal forces (c) Calculate N, V, and M at 7 feet
Draw free body diagrams and determine all support reactions (magnitude, units, and direction) and force in...
Draw free body diagrams and determine all support reactions (magnitude, units, and direction) and force in cable CB. For RISA-2D, consider the cable as a member but release both ends. 2 k/ft8 kips 10 ft 6 ft 4 ft
If the member EF was removed and the support at F was replaced as shown below, determine the support forces at E and F 500 lb 500 lb 12 ft 12 ft12 ft 12 ft 15 ft Support force at E, (Ex, Ey). 1 pt] l...
If the member EF was removed and the support at F was replaced as shown below, determine the support forces at E and F 500 lb 500 lb 12 ft 12 ft12 ft 12 ft 15 ft Support force at E, (Ex, Ey). 1 pt] lb (Sign: negative if leftwards or downwards) Support force at F, (Fx, Fy). [1 pt] )lb (Sign: negative if leftwards or downwards)
If the member EF was removed and the support at F was replaced...
find 1) F2 (magnitude & direction) 3) E2 (magnitude & direction) 2) F1 (magnitude & direction)...
find 1) F2 (magnitude & direction) 3) E2 (magnitude & direction) 2) F1 (magnitude & direction) 4) E1 (magnitude & direction) 32 31x 30° 0 30° 02 +50 uC 52 cm P.S. SHOW ALL WORK. MAKE SURE YOU PUT ALL FORCES DIRECTION ON THE ABOVE DIAGRAM
Detenuine the intemal forces and 60 lb/ft at A for the loodings (a) and (b) 5 ft 3 0 4 m The left support is a pin and the right support is a roller Detenuine the intemal forces and 60 lb/ft at...
Detenuine the intemal forces and 60 lb/ft at A for the loodings (a) and (b) 5 ft 3 0 4 m The left support is a pin and the right support is a roller
Detenuine the intemal forces and 60 lb/ft at A for the loodings (a) and (b) 5 ft 3 0 4 m The left support is a pin and the right support is a roller
P.2 Two forces are applied as shown to a hook support. Knowing that the magnitude of...
P.2 Two forces are applied as shown to a hook support. Knowing that the magnitude of P is 35 N, determine by trigonometry (a) the required angle a if the resultant R of the two forces applied to the support is to be horizontal, (b) the corresponding magnitude of R. Cs 25°
Three vectors are shown in the diagram below. Find the
resultant vector (magnitude and direction):
A = 120lb @ 37 degrees
B = 160lb @ 143 degrees
C = 100lb @ 240 degrees
Problem #4. Three vectors are shown in the diagram below. Find the resultant vector (magnitude and direction): B - 100D 143° A.- 120 h @ 37" C-100D ) 240 •
5) W, Question 1 Find the magnitude and direction of support reactions
Determine the magnitude and
direction of all support reactions for the pin-jointed structure
shown below.
Ax=?
Ay=?
Dx=?
Dy=?
Md=?
450 b T B 3h C 8 ft 4h 4h D
The simply support beam below is loaded as shown. O = 45° 75 kip 30 kip/ft 500 kip-ft me 1 ft 3 ft 1.5 ft 2.5 ft 2.5ft The exact value of the normal force (N), shear force (V), and bending moment (M) at a distance of x=7 feet. Be sure to indicate both magnitude and direction with arrows. (a) FBD and support reactions (b) FBD to find internal forces (c) Calculate N, V, and M at 7 feet
The simply support beam below is loaded as shown. = 45 75 kip 30 kip/ft 500 kip-ft mo 1 ft 3 ft 1.5 ft 2.5 ft 2.5ft The exact value of the normal force (N), shear force (V), and bending moment (M) at a distance of x=7 feet. Be sure to indicate both magnitude and direction with arrows. (a) FBD and support reactions (b) FBD to find internal forces (c) Calculate N, V, and M at 7 feet
Draw free body diagrams and determine all support reactions (magnitude, units, and direction) and force in cable CB. For RISA-2D, consider the cable as a member but release both ends. 2 k/ft8 kips 10 ft 6 ft 4 ft
If the member EF was removed and the support at F was replaced as shown below, determine the support forces at E and F 500 lb 500 lb 12 ft 12 ft12 ft 12 ft 15 ft Support force at E, (Ex, Ey). 1 pt] lb (Sign: negative if leftwards or downwards) Support force at F, (Fx, Fy). [1 pt] )lb (Sign: negative if leftwards or downwards)
If the member EF was removed and the support at F was replaced...
find 1) F2 (magnitude & direction) 3) E2 (magnitude & direction) 2) F1 (magnitude & direction) 4) E1 (magnitude & direction) 32 31x 30° 0 30° 02 +50 uC 52 cm P.S. SHOW ALL WORK. MAKE SURE YOU PUT ALL FORCES DIRECTION ON THE ABOVE DIAGRAM
Detenuine the intemal forces and 60 lb/ft at A for the loodings (a) and (b) 5 ft 3 0 4 m The left support is a pin and the right support is a roller
Detenuine the intemal forces and 60 lb/ft at A for the loodings (a) and (b) 5 ft 3 0 4 m The left support is a pin and the right support is a roller
P.2 Two forces are applied as shown to a hook support. Knowing that the magnitude of P is 35 N, determine by trigonometry (a) the required angle a if the resultant R of the two forces applied to the support is to be horizontal, (b) the corresponding magnitude of R. Cs 25°
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