What is the magnitude of F for the system to remain in equilibrium? 7 kN 5...
F for equilibrium Set F -7.0 kN 1) , 19.6 kN Figure 5 kN xE 70。 Part B F 9.6 kN 1) Part B S kN 70 Units
2. Determine the magnitude and directionof F so that the particle is in equilibrium 7 EN 3 kN Figure 2
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...
13. The magnitude of the horizontal force Fi is 5 kN and Fi+ F2+ F-0 What is the magnitude of F2? 30" 45*
Part A If F 50 kN and F 45 kN , determine the magnitude of the resultant force(Figure 1). Express your answer with the appropriate units. FR=235 kN Previous Answers Submit Correct Part B Figure 1 of 1 Specify the location of its point of application (, y) on the slab. Enter your answers numerically separated by comma. ΥΠ ΑΣφ Lf vec 30 kN 90 kN 0,75 m F 12.5 m 2, y= 3.7,3.5 ) kN m 2.5 m 075...
What is the magnitude of the forces when F=3, theta = 10
degrees. In kN?
у 4 kN F 15° 0 IT 30° х 6 kN
The force F has a magnitude of 8.0 kN. Express F as a vector in terms of the unit vectors i and j. Next, determine the x and y scalar components of F. Answers: F = (i + j) kN F_x = kN F_y = kN
What is the magnitude of force F that is required to keep the
following system in equilibrium. assume the rope has negligible
mass and that the pulleys are frictionless. each pulley in the
system has a mass of 20kg with a 300 kg crate
300 Kg
Determine the magnitude of the projected component of the F=6 kN
force acting along the axis BC of the pipe. Suppose that a=2.6m and
b=4.6m
5 m 1 m x.
The magnitude of the point moment p is 12 kN*m.
The magnitude of the uniformly distributed load q is 12
kN/m.
The maximum magnitude of the variably distributed load r is 13
kN/m.
The magnitude of the variably distributed load over support E is
0 kN/m.
The magnitude of the point load s is 18 kN.
1.What are the reactions at B and E?
2. Determine the bending moment equations for all segments of
the beam if the datum used...