Please solve the following problem and show all work. Thank you!
Please solve the following problem and show all work. Thank you! Prob. 1 Use Moment Area...
Please find all reactions with Moment Distribution Method &
draw shear/moment diagrams. Please show all work. Thank you in
advance!
Problem #2: For the indeterminate beam shown below: a) Determine all reactions using the Moment Distribution Method. b) Draw shear and moment diagrams. El is constant. Show your work. 18 kips 24 kips 6 k/ft 16 k/ft 10ft 12 ft 12ft
Problem #2: For the indeterminate beam shown below: a) Determine all reactions using the Moment Distribution Method. b) Draw...
Determine the slope and the displacement at C. El is constant. Use the moment-area theorems. Prob. 7-28 6 k 12 k.ft 4 ft 6 ft
Use Superposition Method To solve. Please show all step so i can
follow along. Thank You!
12-89. The W8 X 48 cantilevered beam is made of A-36 sieel and s subjecte e loding shown. Determine the displacement at C and the slope at A 1.2 kip 2 kip ft 8 ft 8 ft Prob. 12-89
Please use the Moment Distribution Method to solve this
problem
Determine the moments at the supports, then draw the moment diagram. Assume A and D are fixed. EI is constant. 4 k/ft -10 ft-t 18 ft--+--15 ft-- Prob. 12-7
Please show work and write clearly. Thank you.
6-21. The compound beam is subjected to a uniform dead load of 200 lb/ft and a uniform live load of 150 lb/ft. Determine (a) the maximum negative moment these loads develop at A, and (b) the maximum positive shear at D Assume B is a pin and C is a roller. 5ft . Prob. 6-21
Use the moment-area method to determine the slopes and deflections at points B and D of the beam shown 75 k 40 k 250 k-ft ?12ft 2 ft12 ft El = constant E 29,000 ksi 1 6,000 in.4 RG. P6.33, P6.59
for the beam shown, using moment area method, i) find P such that deflection at D is equal to zero, and ii) find the maximum deflections and locations in spans BC and DE. El is constant. Note: think about how you would solve this problem with double integration.
Problem 8: Using the Moment Area method find the slope at B and the displacement at C 3k C Inc 200 in. IAn500 in. 5 ft 10 ft
*7-32. Determine the slope at B and the displacement at C El is constant. Use the moment-area theorems. 12 k 6 k th 9ft9 ft Prob. 7-32
Please solve the following linear algebra problem.
Please show all work for all parts thank you.
6. (12 pts) Show that the function T: R3 R2 defined by T | ( 7x + 4y - z T-x+3y + 2z) is a linear transformation from R3 into R2.