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- Find the stable equilibrium position of the system described in Prob. 10.56 if m = 2.06 kg.Question 2) The figure shows a mechanical model of the Russel fracture traction device and the leg. The leg is held in balance in the position indicated by the two weights attached to the two cables. The combined weight of the leg and the cast is W=210 N. The horizontal distance between points A and B where the cables are attached to the leg is L=100 cm and the vertical distance is d=6 cm. Point C is the center of gravity of the cast and leg at three quarters of the L measured from point A (3L/4= 75 cm). The angle that cable 2 makes with the horizontal is measured as β=33°. Accordingly, in order for the leg to remain in balance in the shown position; a) Find the tensile force T1 in cable 1. (Write your result in N) b) Find the tensile force T2 in cable 2. (Write your result in N) c) Find the angle α of cable 1 with the horizontal. ResponseA) Imagine a procedure used for the execution of a certain work, as shown in the following figure. Such a crane has a mass of 1000 kg and is transporting a coffin with a total mass of 2400 kg. Assume that support A is fixed, support B is movable, and point G is the center of gravity of the lift. What are the support responses in kN? Question 1 options: a) The support responses are as follows: Rax = Rbx = 34 kN and Ray = 109.33 kN. b) The supporting responses are as follows: Rax = Ray = 109.33 kN and Rbx = 34 kN. c) The support responses are as follows: Rax = 56.8 kN; Rbx = 109.33 kN and Radius = 34 kN. d) The support responses are as follows: Rax = 156.7 kN; Rbx = 89.65 kN and Radius = 34 kN. e) The supporting responses are as follows: Rax = Rbx = 109.33 kN and Ray = 34 kN. B. Consider the beam shown in the following figure. In this beam, there are different types of existing forces, such as applied moment, distributed load and point load. Knowing the magnitude of each of the forces,…
- The figure shows a mechanical model of the Russel fracture traction device and the leg. The leg is held in balance in the position indicated by the two weights attached to the two cables. The total weight of the leg and the cast is W=200 N. The horizontal distance between points A and B where the cables are attached to the leg is L=100 cm and the vertical distance is d=10 cm . Point C is the center of gravity of the cast and leg at three quarters of the L measured from point A ( 3L/4= 75 cm) . The angle that cable 2 makes with the horizontal is measured as β=40 ° . Accordingly, in order for the leg to remain in balance in the position shown; a) Find the tensile force T 1 in cable 1 . (Write your result in N ) b) Find the tensile force T 2 in cable 2 . (Write your result in N ) c) Find the angle α of cable 1 with the horizontalA square plate in balance. A square plate with a mass of 16.4 kg is held in balance in the vertical plane by a hinge attached to its right lower corner and by a rope inclined at 30.4 degrees from horizontal fixed at its upper right corner.What is the modulus of the voltage in the rope?Physics for Engineering A uniform bar 3.00 m long is held by ropes at the ends making angle 60.0 and 30.0, respectively, with the horizontal. A weight of 200 N is hung 0.500 m from the left end where the 60.0 rope is attached. Find the tension in the ropes (T1 & T2) and the weight (W) of the bar. (Hint: Formulate three equations for the three unknowns, 2 equations for the 1st condition and 1 equation for the 2nd condition.)
- The figure shows the Russel fracture traction device and a mechanical model of the leg. The leg is held in balance in the position indicated by the two weights attached to the two cables. The total weight of the leg and the cast is W=250 N. The distance between the points A and B where the cables are attached to the leg is given as L=100 cm and the angle of the leg with the horizontal is γ=6°. Point C is the center of gravity of the cast and leg at three quarters of the L measured from point A (3L/4= 75 cm). The angle that cable 2 makes with the horizontal is measured as β=40°. Accordingly, in order for the leg to remain in balance in the shown position; a) Find the tensile force T1 in cable 1. (Write your result in N) Answerb) Find the tensile force T2 in cable 2. (Write your result in N) Answerc) Find the angle α of cable 1 with the horizontal. ResponseThe figure shows the Russel fracture traction device and a mechanical model of the leg. The leg is held in balance in the position indicated by the two weights attached to the two cables. The combined weight of the leg and the cast is W=210 N. The horizontal distance between points A and B where the cables are attached to the leg is L=100 cm and the vertical distance is d=6 cm. Point C is the center of gravity of the cast and leg at three quarters of the L measured from point A (3L/4= 75 cm). The angle that cable 2 makes with the horizontal is measured as β=33°. Accordingly, in order for the leg to remain in balance in the shown position; a) Find the tensile force T1 in cable 1. (Write your result in N) b) Find the tensile force T2 in cable 2. (Write your result in N) c) Find the angle α of cable 1 with the horizontal.A bored student builds a levitating lantern using objects they 3D printed in the Fischer Engineering Design Center. The student connects the blue and green pieces with two strings at points A and B, as shown below. If the blue (top) object weighs 181 g and the tension in string A is 3.2 N, what is the distance from the left side of the object to its center of mass in cm? Assume the system is in static equilibrium.
- A former Mechanics student wants to weigh himself but only has a scale A limited to 400 N and a small spring dynamometer B that measures up to 80 N. With the assembly shown, he discovers that, by pulling the rope so that B points to 76 N , the scale reads 268 N. What are its correct weight W and mass m? (see img)I need your help expert. The system shown below is in equilibrium. Spring 3 is known to have a change in length of 10 cm. The magnitude of the compressive force in Spring 2 is 15% more than the magnitude of force P, while the magnitude of the compressive force in Bar 1 is 100 N less than that in Spring 2. If the spring constants of Springs 2 and 3 are 625 and 1200 N/m, respectively, determine the following: a. magnitude of forces P (in N) and F (in N) b. tension (in N) in cable ABC c. mass (in kg) of Block A d. compressive force in Bar 1 e. change in length (in cm) of Spring 2 Draw the complete FBD’s of Block A, Hook C and Pulley E. (Note: Below are the final answers, kindly match your answer on this. Thank you) Answer: P = 131.2831 N, F = 87.1569 N, TABC = 110.7024 N, mA = 15.6338 kg, F1 = 50.9756 N, s2 = 24.1561 cma. When load P is applied at room temperature what will be the tension in wire at C and D? [solve for a value in kN] b. When load P is already applied and the room temperature is raised by 30 degrees Celsius, what will be the tensions in the wire at C and the wire at D? [solve for a value in kN] c. What additional temperature rise is required to make the wires at C and D slack(i.e. have zero force)? [in degree Celsius]