Sketch a free-body diagram of each element in the figure. Compute the magnitude and direction of each force.
Sketch a free-body diagram of each element in the figure. Compute the magnitude and direction of...
Mechanical Design Al. Sketch a free-body diagram of each element in the figure. Compute the magnitude and direction of each force including reaction forces, using the known equilibrium conditions. F 300 lb 200 N 50 mm 60° 50 mm 50 mm 50 mm
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
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
POD 12-Prob#3) Free body diagrams Sketch appropriate free-body diagrams for the following situations/objects a. A baseball at the instant that it is hit by the bat b. A soccer ball in the air after being headed in to the goal for the winning point in the match c. A bird sitting on a tree branch. d. The International space station in orbit around the earth POD 12-Prob #4) Free Body Diagram with math A block of mass m is resting...
35. I FIGURE P5.35 Problems 35 through 40 show a free-body diagram. For each: a. Identify the direction of the acceleration vector a and show it as a vector next to your diagram. Or, if appropriate, write ā=0. b. If possible, identify the direction of the velocity vector V and show it as a labeled vector. c. Write a short description of a real object for which this is the correct free-body diagram. Use Examples 5.4, 5.5, and 5.6 as...
Determine the reactions for the structure shown below. Clearly summarize the direction and magnitude of each reaction on a free body diagram of the structure. 1.5 k/ft 12" 30 kips 100 k-ft 20' 10' 16' al
Figure 1: 1) Please draw the free-body diagram of mass M in Figure 1(a). The diagram should include the pulling force F, gravitational force Mg, normal force N, and friction force fk. 2) Consider the graph in Figure 1(b). Please explain why the average of pulling force F in Region (ii) can be regarded as the kinetic friction force fx. (You may refer to the free body diagram in Question 1.) F个 (i) rest constant speed Force sensor h. 1)...
Q2// For the Pin connected, Sketch the Free Body diagram (FBD) of a) Entire Frame b) Member AC c) Member DF d) find the reactions at D and F e) Calculate the force BE force (Bonuses) 2m 10KN 4m 3m 2m
PLEASE DRAW FREE BODY DIAGRAM < Problem 8/10 20 in 15 in Using the method of joints, determine the force in each member of the truss shown. The load P units of lbf or kip. Use positive values for tension and negative for compression 370 lbf. Use FAB FAC- FBc
webbplnotation from class. After completing the free body diagram, enter below each force and its x y components. (use 9 - 10 m) Remember that the x-component is the component and they component is the component NET force on Block 1 (round to nearest Integer) FD I + 2043 IN The DIRECTION of the net force on Block 1 is in the same direction as its acceleration of the elevator is moving downward with a decreasing speed, then the direction...