Given: P=7 lb Determine the horizontal clamping force at E. Draw free body diagrams such that...
Determine the force in members DE, EJ, and JK by the method of sections. Draw all free body diagrams. Below each free body diagram write the equilibrium equations associated with that free body diagram. Failure to format your answers in this fashion will result in a zero. All forces shown are vertical and horizontal 14000 lb 3200 lb E 6700 lb 12-0" 6 bays at 9-0" 54'-0" 5200 lb
(i) Draw the free body diagrams (ii) Draw the shear and moment diagrams (iii) Use the virtual force method to determine the horizontal displacement at B. Given: I1 = 200in^4, I2 = 800 in^4 and E=29000ksi 1.2 x1 0.5 6.9 0.5 ← 3.1 ← A 25.45 0.625 12.95 0.625
ATTEMPT ALL QUESTIONS (All solutions must include free body diagrams) 1000 lb SO Question 1 Determine the force in each member of the truss and state if the members are in tension or compression. (Draw the Free Body Diagram (FBD) of the structure and joints for solving internal forces) (35 points) 10 ft ---10 -- --10 ft-------10ft-- 600 lb
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
draw free body diagrams and answer questions please Draw the free body diagram for the bob (note that the spring is not attached at this time): bobt Equilibrium Marker 2. How does spinning the bob faster affect the period (time required for 1 full revolution)? The period increases. It takes more for the bob to go around once. The period stays the same. The period decreases. It takes less time for the bob to go around once. to the centripetal...
Draw free body diagrams and determine all support reactions (magnitude, units, and direction) and force in cable CB. For RISA-2D, consider the cable as a member but release both ends. 2 k/ft8 kips 10 ft 6 ft 4 ft
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
Draw free-body diagrams for each of the following objects in uniform circular motion. State the force(s) providing the centripetal force. 1. The Earth orbiting the Sun 2. A car making a curve on a horizontal road 3. A ball on a string swinging in circles on a horizontal surface
For the frames below: (i) draw the free body diagrams (ii) draw the shear and moment diagrams (iii) use the virtual force method to determine the horizontal displacement at joint B. Assume I1 = 200, I2 = 800, E = 29000 ksi 1.2 kip/ft 20 ft 8.4 1.6 16.27 22.13 75.86 30 32 ft kip ft3 UR -in
I need help with these free body diagrams and charge diagrams please n16 Draw the free body diagram of both the point charge and the solid metal object. (Note: Each object should have more than one force vector included on it.) 17 Is the net force on the solid metal sphere directed to the left, directed to the right, or is it zero? Explain. 18 The situation below shows three neutral, conducting spheres connected by conducting rods. A positively charged...