2. Determine the magnitude and directionof F so that the particle is in equilibrium 7 EN...
4. Determine the magnitude and angle Bof F so that the particle is in equilibrium. 45kN 225 IN 75 N Figure 4
Determine the magnitude and direction theta of F so that the particle is in equilibrium.
Q.3 Determine the two forces Fi and F2 so that the particle F is in equilibrium. F, 40 20° F 60 1b tv. Q.3 Determine the two forces Fi and F2 so that the particle F is in equilibrium. F, 40 20° F 60 1b tv.
What is the magnitude of F for the system to remain in equilibrium? 7 kN 5 kN 1 kN 6kN
2.(20 P) Determine the magnitude and direction of moments MA and MC having the force F=EN 4 ft 6A 5 ft
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...
Determine the magnitudes of F1, F2, and F3 for equilibrium of the particle. The applied forces and Q are applied at point O. Given P = 2.8 + xx (kN) and Q = 8.5 + xx (kN), where xx is the last two digits of your student ID number. If your student ID is 6x-XXXXXX-xxx1-2, P = 2.8 + 12 = 14.8 kN and Q = 8.5 + 12 = 20.5 kN. F2 30° 25 15 P 1.1 Force Q...
F1=16.18j-8.97k F2=-13.85i+5.77k To understand how to quantitatively determine whether a particle is in a state of mechanical equilibrium. In statics, we make extensive use of Newton's first law, which states that a particle, initially at rest, or moving in a straight line with constant velocity, will remain in its current state unless the particle is subjected to an unbalanced force system. If the sum of the forces acting on a particle is zero, then it is in mechanical equilibrium. Although...
Determine the magnitude and coordinate direction angles of the F acting on the support. The component of F in the x-y plane is 7 kN. 2. 30° 40°
Consider the forces applied to the particle shown in (Figure 1). Suppose that F4 = 6 kNand F5 = 20 kN . A- Determine the magnitude of F1 for equilibrium of the particle. Express your answer to three significant figures and include the appropriate units. F1= B- Determine the magnitude of F2 for equilibrium of the particle. Express your answer to three significant figures and include the appropriate units. F2= C- Determine the magnitude of F3 for equilibrium of the...