Draw the free body diagrams for the figures Draw the free body Diagram for the figures below. 20 1. 65° 1.7 m 12 m S 250 m
Draw a free body diagram. 5 kN 6 kN 8 kN 2m- 2 m Prob. 5-15
Exercise 1: Draw a free body diagram for M. what does the tension turn out to be? please chose one: [1] Mg [2] mg [3] (M+m)g [4] (M-m)g Exercise 2: Draw a free body diagram for m. what does the mass ratio, m/M, turn out to be? please chose one: [1] cos [2] tan [3] sin [4] 1 Exercise 3: What is the radius of the circle in which m moves? Use the free body diagram for m to write...
Draw a free body diagram of the figure. The boom is supported by a pin at A and cable BC. Draw the free-body diagram for the boom. Draw the vectors starting at the black dots. The location and orientation of the vectors does not matter. Problem 5.6 No elements selected TB 1.5 m 30° Select the elements from the list and add them to the canvas setting the appropriate attributes.
Draw free body diagram of system
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)...
draw the free body diagram and determine the reactions
beam problem QUESTION 6: Draw the free body diagram of the beam shown below and determine the reactions and formulate the shear-force and bending moment equations for the beam. Sketch the shear and moment diagrams: Type your answers and intermediate calculations on the screen on the blackboard 400 N 100 N/m A 4 m 4 m
Problems S.13 (a) Draw the free-body diagram of the beam. (b) Determine the reactions at the supports. A 6 m 40 kN В 8 m 12 m Problem 5.13
Please don't forget to label the free body diagram For charge q_4, draw a free-body diagram on the figure If this charge is released, what to its in unit vector form? find electric field at q_4 then the force. If all charges released simultaneously. bow would your answer above change?