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0.4 The lamp has a mass of 10*ID2 N and is supported by a pole...
A force acting on the pole at point A. a.) Determine the magnitude of the projected...
A force acting on the pole at point A. a.) Determine the magnitude of the projected component of the force along the cable AB. b.) Determine the magnitude of the projected component of the force along the cable AC. c.) Determine the angle between cables AB and AC. 2 m 6 m 6 m 5 m 15° V F=1000 N
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...
please help solve for what is asked in orobkems A-H and the free body diagrams as...
please help solve for what is asked in orobkems A-H and the
free body diagrams as well. Will upvote if correct
A
B
C
D
E
F
G
H
B 4 m 6 m 3 m 12 m 2 m F=80 N Determine the projected component of the force acting along the axis AB of the pipe. 60° A The 30kg pipe is supported at A by a system of five cords. Determine the force in each cord for equilibrium....
Use the non-rectangular component approach. The screw eye shown is subjected to two forces F1 and...
Use the non-rectangular component approach. The screw eye shown is subjected to two forces F1 and F2. Draw and determine the magnitude of the resultant of the two forces using the Parallelogram Law. Find its orientation theta with respect to the plus x-axis? Test Problem 3 Use the non-rectangular component approach. The engine block shown is suspended by a system of cables. The mass of the engine block is 200 kg. For equilibrium, determine the tension in cable AD and...
The beam ABC has a mass of 78.0 kg and is supported by the rope BDC...
The beam ABC has a mass of 78.0 kg and is supported by the rope
BDC that runs through the frictionless pulley at D. The winch at CC
has a mass of 44.5 kg. The tension in the rope acts on the beam at
points B and C and counteracts the moments due to the beam's weight
(acting vertically at the midpoint of its length) and the weight of
the winch (acting vertically at point C) such that the resultant...
Question 25 of 30 > A tightrope walker is walking between two buildings holding a pole with length L = 16.0 m, and mass mp-20.0 kg. The daredevil grips the pole with each hand a distance d...
Question 25 of 30 > A tightrope walker is walking between two buildings holding a pole with length L = 16.0 m, and mass mp-20.0 kg. The daredevil grips the pole with each hand a distance d = 0.500 m from the center of the pole. A bird of mass m 575 g lands on the very end of the left-hand side of the pole Assuming the daredevil applies upward forces with the left and right hands in a direction...
The force F = (-0.4, 0.800000000000001) N acts on a mass of 1.38 kg. At time...
The force F = (-0.4, 0.800000000000001) N acts on a mass of 1.38 kg. At time t = 0s, the mass has a velocity Vo = (0.24, 0.0600000000000001) m/s. In which quadrant (1-4) is the force? Submit Answer Tries 0/10 In which quadrant (1-4) is the initial velocity? Submit Answer Tries 0/10 What is the angle in degrees) of the force, measured counter-clockwise from the +x-axis? Submit Answer Tries 0/10 What is the angle (in degrees) of the initial velocity,...
A block hangs from the end of bar AB that is 7.50 meters long and connected...
A block hangs from the end of bar AB that is 7.50 meters long and connected to the wall in the zz plane. The bar is supported at end A by a ball joint such that it carries only a compressive force along its axis. The bar is supported in equilibrium at end B by cables BD and BC that connect to the zz plane at points C and D respectively with coordinates given in the figure. The z components...
A fancy 17-kg lamp (c) hangs near a corner wall by 3 strings (diagram below) with angles a=76 degrees and b=137 degrees. Someone pulls on the cord on the lamp using a force of 6 N. Find the precise te...
A fancy 17-kg lamp (c) hangs near a corner wall by 3 strings
(diagram below) with angles a=76 degrees and b=137 degrees. Someone
pulls on the cord on the lamp using a force of 6 N. Find the
precise tensions along the 3 strings when the cord is pulled (use
9.80 m/s2 for g). Enter your responses with 1 decimal
precision.
You may receive an additional 3 points towards problem #2 in your midterm. You must complete all the steps...
A force acting on the pole at point A. a.) Determine the magnitude of the projected component of the force along the cable AB. b.) Determine the magnitude of the projected component of the force along the cable AC. c.) Determine the angle between cables AB and AC. 2 m 6 m 6 m 5 m 15° V F=1000 N
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...
please help solve for what is asked in orobkems A-H and the
free body diagrams as well. Will upvote if correct
A
B
C
D
E
F
G
H
B 4 m 6 m 3 m 12 m 2 m F=80 N Determine the projected component of the force acting along the axis AB of the pipe. 60° A The 30kg pipe is supported at A by a system of five cords. Determine the force in each cord for equilibrium....
Use the non-rectangular component approach. The screw eye shown is subjected to two forces F1 and F2. Draw and determine the magnitude of the resultant of the two forces using the Parallelogram Law. Find its orientation theta with respect to the plus x-axis? Test Problem 3 Use the non-rectangular component approach. The engine block shown is suspended by a system of cables. The mass of the engine block is 200 kg. For equilibrium, determine the tension in cable AD and...
The beam ABC has a mass of 78.0 kg and is supported by the rope
BDC that runs through the frictionless pulley at D. The winch at CC
has a mass of 44.5 kg. The tension in the rope acts on the beam at
points B and C and counteracts the moments due to the beam's weight
(acting vertically at the midpoint of its length) and the weight of
the winch (acting vertically at point C) such that the resultant...
Question 25 of 30 > A tightrope walker is walking between two buildings holding a pole with length L = 16.0 m, and mass mp-20.0 kg. The daredevil grips the pole with each hand a distance d = 0.500 m from the center of the pole. A bird of mass m 575 g lands on the very end of the left-hand side of the pole Assuming the daredevil applies upward forces with the left and right hands in a direction...
The force F = (-0.4, 0.800000000000001) N acts on a mass of 1.38 kg. At time t = 0s, the mass has a velocity Vo = (0.24, 0.0600000000000001) m/s. In which quadrant (1-4) is the force? Submit Answer Tries 0/10 In which quadrant (1-4) is the initial velocity? Submit Answer Tries 0/10 What is the angle in degrees) of the force, measured counter-clockwise from the +x-axis? Submit Answer Tries 0/10 What is the angle (in degrees) of the initial velocity,...
A block hangs from the end of bar AB that is 7.50 meters long and connected to the wall in the zz plane. The bar is supported at end A by a ball joint such that it carries only a compressive force along its axis. The bar is supported in equilibrium at end B by cables BD and BC that connect to the zz plane at points C and D respectively with coordinates given in the figure. The z components...
A fancy 17-kg lamp (c) hangs near a corner wall by 3 strings
(diagram below) with angles a=76 degrees and b=137 degrees. Someone
pulls on the cord on the lamp using a force of 6 N. Find the
precise tensions along the 3 strings when the cord is pulled (use
9.80 m/s2 for g). Enter your responses with 1 decimal
precision.
You may receive an additional 3 points towards problem #2 in your midterm. You must complete all the steps...
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