Draw a free-body diagram for the block C Three other, as shown in the gure 1...
Draw a free body diagram for the block showing the forces vectors acting on the block Write equation of motion for the block (letters only) along the Y direction Use the equator developed in part (e) and calculate the acceleration of the block
Draw a free body diagram for block 1 and block 2 indicating forces and respective directions and explain which of these two forces are stronger: Tension and Friction? (No need to calculate, just explain why you chose your answer). Mass 1 = 2.85 kg Kinetic Friction Coefficient = 0.552 Mass 2 = 4.75 kg 40 degrees
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
5. A 10 kg block sits on a 20º incline. (4 pts.) Draw a free-body diagram that labels all of the forces on the block. (4 pts.) Choose a coordinate system and write out the X and Y components of each force vector.
1. Your car is sitting in the parking lot. Draw a free body diagram of the car with a coordinate system. Write Newton's 2nd laws for the car. 2. A skater glides to the right across frictioniess ice. Draw a free body diagrarp of the skater with a coordinate system. Write Newton's 2nd laws for the skater. Hint: The skater is gliding/sliding so he is not applying any force. Fals 3. An elevator, hanging from a cable, descends at steady...
a. Draw a complete free-body diagram for the beam shown in Fig. 1. Must show and label x-y coordinate system, support reactions, loads, and dimensions b. Derive formulas for all support reactions using conditions of equilibrium. Must show all work. c. Using the student variables shown below, calculate beam support reactions and draw shear and bending moment diagrams. To receive full credit, support reactions and loads must be shown on a free-body diagram. Each shear and bending moment diagram must...
2. (a) Draw a free body diagram for member ABC shown below. (b) Determine the reactions at the supports A and C. P = 10 kN and a = 1 m. Begin your solution on this page 30
For the truss shown below, 1. Draw a free body diagram and determine the reactions at supports (D and A) 2. Determine the force in all members of the truss and specify if they are in tension or compression. 3. Do your homework assignment by your own in a neat way. E D 2 m A B - 2 m 2 m 400 N
. Draw the free body diagram for each member of the frame shown be but do not calculate any reactions. 5 m 5 m 4 m 4 m I m Not to scale What are the reactions at A for a weight W?
Requirement: (1) Draw necessary free body diagrams, (2) write necessary equations, and (3) name the adopted principle 3. The mass of block is 10 kg and the horizontal force applied to the block as shown in Figure below is 100 N. The coefficients of kinetic friction between the block and the inclined plane is μ A 0.2. Determine the acceleration of the block and its direction. Draw free body diagram and write the needed equation (25 points) 30P