escLearning Goal:The slender rod AB shown has a mass of m 75.0 kg and is beingsupported by a rope and pulley system stationed at C. Starting fromrest (in the position shown), the rope and pulley system tug on the rodcausing it to rotate about A. The torque applied to the pulley isT-2.35 kN-m and has an effective moment arm of r = 0.110 m.The dimensions shown in the figure are l = 2.20 m andh 1.20 m Assume the pulley is frictionless and massless (Figure1)Figure?99°FSunny@2#3=$4< 1 of 1Bdo%5Y Part A - Angular Acceleration of the RodDetermine the angular acceleration of the rod the instant the rope and pulley system have pulled the rod through an angle of 0 = 3.70°.Express your answer to three significant figures and include the appropriate units.View Available Hint(s)α =Submit6▼ Part B - Normal Component of the Reaction at AValueA₁H OLDetermine the normal component of the reaction the rod exerts on the pin at A. Use the coordinate system set up by the free-body diagram below.www.17 +&7*Unitsfo8Bi144fyo D11?9AsDDIAdeletebackspaceENGhome4x D Equations of Motion: Rotation about a Fixed AxisescLearning Goal:The slender rod AB shown has a mass of m= 75.0 kg and is beingsupported by a rope and pulley system stationed at C. Starting fromrest (in the position shown), the rope and pulley system tug on the rodcausing it to rotate about A. The torque applied to the pulley isT = 2.35 kN-m and has an effective moment arm of r = 0.110 m.The dimensions shown in the figure are 1 = 2.20 m andh = 1.20 m. Assume the pulley is frictionless and massless. (Figure1)Figure?99°FSunnyh12@2#3$4< 1 of 1 >BJo%5Yto -A-Part B - Normal Component of the Reaction at ADetermine the normal component of the reaction the rod exerts on the pin at A. Use the coordinate system set up by the free-body diagram below.▬▬An6Express your answer to three significant figures and include the appropriate units.► View Available Hint(s)Submitf7104+Value&μA▼ Part C-Tangential Component of the Reaction at AOLD187+↓o*Bi198Units144BCE ?22ho bll9fnbb1D#delete0ENGbackspacexa

Answered: Image /qna-images/answer/1c95e7dc-cc34-433d-90d8-c7c494d2f9ee.jpg

Learning Goal: 75.0 kg and is being at C. Starting from The slender rod AB shown has a mass of m supported by a rope and pulley system stationed rest (in the position shown), the rope and pulley system tug on the rod causing it to rotate about A. The torque applied to the pulley is T-2.35 kN-m and has an effective moment arm of r-0.110 m. The dimensions shown in the figure are 1-2.20 m and h-1.20 m Assume the pulley is frictionless and massless (Figure 1) Figure 99 F Sunny 1 of 1 ▾ Part A-Angular Acceleration of the Rod Y Determine the angular acceleration of the rod the instant the rope and pulley system have pulled the rod through an angle of 0-3.70°. Express your answer to three significant figures and include the appropriate units. View Available Hint(s) a= Submit Value h Units Part B - Normal Component of the Reaction at A ? A Determine the normal component of the reaction the rod exerts on the pin at A. Use the coordinate system set up by the free-body diagram below. # E ENG P

Learning Goal: 75.0 kg and is being at C. Starting from The slender rod AB shown has a mass of m supported by a rope and pulley system stationed rest (in the position shown), the rope and pulley system tug on the rod causing it to rotate about A. The torque applied to the pulley is T-2.35 kN-m and has an effective moment arm of r-0.110 m. The dimensions shown in the figure are 1-2.20 m and h-1.20 m Assume the pulley is frictionless and massless (Figure 1) Figure 99 F Sunny 1 of 1 ▾ Part A-Angular Acceleration of the Rod Y Determine the angular acceleration of the rod the instant the rope and pulley system have pulled the rod through an angle of 0-3.70°. Express your answer to three significant figures and include the appropriate units. View Available Hint(s) a= Submit Value h Units Part B - Normal Component of the Reaction at A ? A Determine the normal component of the reaction the rod exerts on the pin at A. Use the coordinate system set up by the free-body diagram below. # E ENG P

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

See similar textbooks

Similar questions

B2
Urgent plz..hand written plz
The linkage shown is used in a vehicle suspension system. Find the forces indicated below when a static force of F = 820 lb is applied to the tire at point C at an angle of 0 = 22° as shown. Assume the connection of the wheel to member AB is rigid. hs hy hi F BY NC SA W4. W, Ws 2013 Michael Swanbom Values for dimensions on the figure are given in the following table. Note the figure may not be to scale. Variable Value Variable Value hi 10 in Wi 8.8 in h2 15.6 in W2 5.6 in h3 18.1 in W3 10.8 in h4 10.9 in WĄ 7.4 in h5 4.9 in W5 9.3 in For all answers, take x as positive to the right and y as positive upward. At point B, member AB exerts a force of B = j lbs on member BHE. At point A, member AD exerts a force of A + j lbs on member AB. At point H, shock GH exerts a force of H = i + i lbs on member ВНЕ. At point E, the magnitude of the force exerted on the car body by member BHE is lbs. At point D, the magnitude of the force exerted on the car body by member AD is lbs. At point G, the…
Symmetrical shoes will not create moment around the joint The position of the pads with an angle of 90° on the brake where it is placed in the figure is shown in the figure. The brake mechanism is fixed to the ground by the support plate. The disc in the figure rotates clockwise and the friction coefficient of the pads is accepted as 0.491. If a force of 565 N is applied on the arm from the point shown on the figure;a) What is the dimension e shown in the figure so that the shoe does not create a moment around the joint?how much should it be? Calculate.b) Draw free body diagrams of ABC opening lever and both lining levers.c) What is the normal force acting on each pad? How much braking torqueoccurs? calculate
17:Y bäö öel jäll - 2_5334586558316022742 احمد کريم Q (1): If the force system shown in figure (1) is in a balanced system, calculate the force and the angle 0 T. 20 20 (M (2): Calculate the torque of force 60 lb around point H. (15 degrees 425 N 500 N 30
The figure on the left, below, shows a non-uniform bent rod with a mass of 5 kg. Your job is to determine the location of the center of gravity of this rod. You design an experiment: you connect a pin and cable to the rod such that it safely stays in static equilibrium under a force P that you apply. Then, you apply forces between 0-100 N, and measure the tension force on the cable using a cable tension meter. The results of your experiment are shown in the figure, on the right. Using this experiment, calculate (approximately) the horizontal distance (x in the figure) between point A and the center of gravity G of the bent rod. B C O I 20 cm 20 cm 60° D 50 cm Tension measurement [N] 60 50 40 30 20 -10 0 10 real data estimated fit 20 30 40 ܐܐܝ 50 P[N] 60 70 80 90 100
A 120 N is at rest on a rough in a line making an angle of 20° with the horizontal. The roller has a radius of 0.40 m. as indicated in the figure. a.Calculate the force P that is required to push the roller at rest on the rough incline surface. b. Calculate the normal reaction at the point of contact between the roller and the rough inclined surface. c.Calculate the force P required to pull the roller at rest on the rough incline surface.
3.9 The linkage in Fig. 3-10 has 0,A = 8mm, AB = 19. 3mm, AC = 13. 3mm, and offset = %3D 3. 8mm. The crank angle in the position shown is 34. 3° and ZBAC =38. 6°. Find wz, vA, VB, Vc for the position shown for w, = 15rad/s in the direction shown. ( Choose two methods) 1) Use the velocity difference graphical method. 2) Use the instantaneous center graphical method. 3) Use the analytical method. @2 B offset 02 Fig. 3-10
c) The pulley system shown in Figure Q1c lifts a mass, m, of 550 kg. Calculate the force FAnecessary to maintain the suspended mass in static equilibrium; and determine the forces at the ceiling anchor points A and B. Assume frictionless and weightless pulleys and use g 9.81 m/s.
Learning Goal: To analyze a rod assembly in three-dimensional space and determine the support reactions by using the equations of equilibrium for a rigid body. The rod assembly shown has smooth joumal bearings at A, B, and C. The forces F 600 N. F-480 N. F 460 N, and F-900 N are applied as shown in the figure. The geometry of the rod assembly is given as a 0.900 m, &0.650 m, and c 0.800 m Neglect the weight of the rod Determine the magnitude of the 2 component of the reaction on the rod at A Express your answer to three significant figures and include the appropriate units. View Available Hint(s) Submit PA A₁ = Value Submit Part F- Finding the x component of the reaction at A Determine the magnitude of the x component of the reaction on the rod at A Express your answer to three significant figures and include the appropriate units. View Available Hint(s) Units μÁ Value ? Units ?
N Motor 0.2 m 0.2 m 100 kg B Given: drum, shaft, and motor diameter = 100mm Bearing supporting A and B are thrustless A & B have no moments ask: for the mass to be in equilibrium, what are? Reaction force at A Reaciton force at B Torque Mz
Show work step by step by hand calculations clearly