Mechanical Design Al. Sketch a free-body diagram of each element in the figure. Compute the magnitude...
Sketch a free-body diagram of each element in the figure.
Compute the magnitude and direction of each force.
100 lbf 12in 6 in 12 in
Only question 3-3, draw a
FBD
3-1* to 3-4 Sketch a free-body diagram of each element in the figure. Compute the magnitude and direction of each force using an algebraic or vector method, as specified. 100 lbf 100 lbf 12 in 10 in 6 in 12 in 10 in 10 in 10 in- Problem 3-1 Problem 3-2 F-400 N 30° F=0.8 KN -0.9 m IE Problem 3-3 Problem 3-4
The figure shows a mechanical device in which force
(s) are applied parallel to and away from the axis of the main,
beam-like part. The device is supported by bearings at the
locations marked with an X, which can provide reaction forces in
any direction perpendicular to the axis of the beam. One of the
bearings has the capability of resisting horizontally directed
forces
1. Break the compound beam into parts consisting of each of the
straight components.
2. Show...
Problems for Figures P11-77 to P11-84 Each Figure shows a mechanical device in which one or more forces are applied parallel to and away from the axis of the main, beam-like part. The devices are supported by bearings at the locations marked with an X, which can provide reaction forces in any direction per pendicular to the axis of the beam. One of the bearings has the capa bility of resisting horizontally directed forces. For each figure the objectives are...
Given the free body diagram in equilibrium, calculate the force W is. 650 lb w200 lb 261 lbs 200 lbs Not enough information given 300 lbs
3. Three forces are acting on a rigid body as shown in the top view diagram below. F =200 N E=300 N 90 cm 10cm F,=100N (a) Is this body in equilibrium? (b) If not, what is the magnitude and direction of a fourth force which could be applied to the body in order to place the body in equilibrium? (c) Where, along the body, must this fourth force be applied? 11/3/2017 -7-
3. The following figure shows the block diagram of a mechanical translational system k1 U3 m1 (a) Draw free body diagrams for each of the masses. Bearing in mind that the force due to spring is proportional to its length and the force due to friction is proportional to velocity, label each of the forces acting upon each body. (b) Develop the dynamical equations for the system.
1. Sketch a free body diagram and write the equilibrium equations for each link. Tız is the unknown torque applied to link 2 which is for maintaining static equilibrium when link 2 is supported 150° from horizontal as seen in the figure. Consider the weights of the links in the diagrams. 64-1000 cadan? 1504 G3 02162 GE 22,86 25.52 Figure.l. Mechanism
MEC
432
Mechanical Design I
and draw the MDE theory please
The bearings at A and B exert only y and a components of force on the shaft. If Sy = 150 MPa for the selected ductile material, determine the factor of safety if the shaft diameter is 40 mm. Use the maximum distortion-energy theory of failure. Show the following procedures through the calculation steps (Free Body diagram (FBD), Reaction at A and D, Bending moment diagram, point of max....
please help solve for what is asked in orobkems A-H and the
free body diagrams as well. Will upvote if correct
A
B
C
D
E
F
G
H
B 4 m 6 m 3 m 12 m 2 m F=80 N Determine the projected component of the force acting along the axis AB of the pipe. 60° A The 30kg pipe is supported at A by a system of five cords. Determine the force in each cord for equilibrium....