The given problem is an indeterminant condition with more unknowns than equilibrium conditions. To solve the problem we have to consider only a section of the given frame and solve for its equilibrium. Please find the attached solution.
QUESTION 1 Determine the Horizontal force P (in Newtons) needed to hold the system in the...
Determine the Horizontal force P (in Newtons) needed to hold the system in the equilibrium position shown in the figure. Given that XB - 6 m, and force H - 690 N. 4 m B 6 m D - 2 m- select the closest answer to your solution. P-1906 N P-747 N P=1121 N P-480 N
Question 1: Determine the x and y components of the force needed to hold the horizontal T-section in place, Fx and Fy. The plane of the fitting is horizontal, so you can neglect the weight of the water and consider that all pipes have the same z coordinate. DO NOT NEGLECT HEAD LOSSES. Compute head losses between section 1 and 3 using K-0.3 and Vi and between section 1 and 2 using K=0.2 and VI. 6 cm dia. Vl= 10ms...
determine the force P for equilibrium of the system shown in Figure P5-61 5-61.Determine the force Pfor equilibrium of the system shown in Figure P5–61. 20 KN A E 1 m 1 m 4 m G H 2m 11m11 m 2 m FIGURE P5-61
7. Find the quadriceps muscle force (F3) needed to hold the leg in the horizontal position during an isometric leg extension exercise, given that F2 = 180 N,F1-75 N and θ angle of pull of the quads with respect to the horizontal). 25° (ie, the F, 10am 20
1. Determine the range of force P that yields the equilibrium of the two-block system shown in the figure. Assume that friction exists only at the bottom surface of B. figure. Assume that 3001 58N 534 N B 356 N My = 0.2-
Deltoid muscle Fig. 1a Problem #2.1 You are able to hold your arm in an outstretched position because of the deltoid muscle. The force diagram for this is shown in Fig. 1b. Use the equilibrium conditions to determine the tension T in the deltoid muscle needed to achieve this equilibrium, and the vertical and horizontal components of the force exerted by the scapula (shoulder blade)on the humerus. Assume the weight of the humerus is 36.0 N and the deltoid muscle...
Determine the horizontal equilibrium force P that must be applied to the handle. The bearings are properly aligned and exert only force reactions on the shaft. Determine the x, y, z components of force at the smooth journal bearing A. Determine the x, y, z components of force at the thrust bearing B. Part A A vertical force of 400 N acts on the crankshaft. (Figure Determine the horizontal equilibrium force P that must be applied to the handle. The...
P4 asap please P3 Determine the magnitude P of the horizontal force required to initiate motion of the block of mass mo for the cases (a) P is applied to the right and b) Pis applied to the left. Complete a general solution each case, and then evaluate your exp in ression for the μ'. 0.50. mo 3 kg, 0.60, and rm P(a) P (b) 4 Determine the equilibrium value of x for the spring- supported bar. The spring has...
2. Determine the forces P and Q in the force system shown in the figure below. All the forces are in equilibrium YE) 50 lb
Question 1: A 45-N vertical force P is applied at A to the bracket shown, which is held by screws at B and C (a) Replace P with an equivalent force-couple system at B. (b) Find the two horizontal forces at B and C that are equivalent to the couple obtained in part a. 2 cm 3 cm Figure 1