Part (b). Follow the same procedure with P = 107 N. What is the friction force F needed to keep the block from slipping? If thefriction force F for this case is in the same direction as that shown in the sketch, enter a positive number. If the friction force F forthis case is in the opposite direction as that shown in the sketch, enter a negative value for F. What is the magnitude of themaximum friction force Fmax that can be produced in this situation (enter a positive value for Fmax)?mgPNAnswers:F =iNFmax =N The 45-kg crate is stationary when the force Pis applied. Determine the resulting acceleration of the crate if (a) P = 0, (b) P = 107 N,and (c) P = 197 N. The acceleration is positive if up the slope, negative if down the slope.H = 0.15HE = 0.1245 kgP12°

Answered: Image /qna-images/answer/97d450eb-4414-404d-9306-b86151b9aad7.jpg

Answered: Part (b). Follow the same procedure…

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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The cross section of a concrete corner column that is loaded uniformly in compression is shown in the figure. A circular pipe chase cut-outof 10 i n. in diameter r tins t he height of t he co \u m n (see figure).(a) Determine the average compression stress crr in the concrete if the load is equal to 3500 kips.(b) Determine the coordinates x and y{of the point where the resultant load must act in order to produce uniform normal stress in the column.
A channel-section has the dimensions as shown. Consider a cantilevered beam subjected to an end force P. L = 100 cm a) iif cross-section las is used, determine its normal stress distribution. (a) (b) b) if you stack two las sections as a box, but leave a gap between them, two sections carry = loadings with the same distribution pattern. Try express the results. (C) 2ª L 2CM дом E 2ch weld
(4) Two kids (200 N each) are balanced on a seesaw. Plane a-a (containing Point A) is just left of the pin support. Plane b-b (containing Point B) is just right of the pin support. Illustrate the combined state of stress at Point A and at Point B on the two stress cubes below. (Yes, compute values, of course.) Ans. 214 kPa 1.2m 1.2m Point A (on plane a-a): x y ^y 4 200 N A SEESAW GIVEN: Iy= 2.488 E6 mm 4 I₂0.9338 E6 mm 4 12 14 14 12 N 12 ib 33 лу 33 x 2000 Points A&B dims. in mm Point B (on plane b-b): ^y ------ NA x ----- N
STRENGTH OF MATERIALS (THIS IS ALREADY ANSWERED IN BARTLEBY. PLEASE RESOLVE THE SOLUTIONS. UPVOTE WILL BE GIVEN. PLAESE WRITE THE COMPLETE SOLUTIONS LEGIBLY. ANSWER IN 3 DECIMAL PLACES.)
Please show all steps so your process is easy to follow
Solve it correctly please. I will rate accordingly.
02: The rigid platform has negligible mass and rests on two steel bars, each 250.00 mm long. The center bar is aluminum and 249.90 mm long. Compute the stress in the aluminum bar after the center load P= 400 kN has been applied. For each steel bar, the area is 1200 mm2 and E= 200 GPa. For the aluminum bar, the area is 2400 mm2 and E 70 GPa Rigid platform Steel Ahmum Steel
compute the flexural stressesin the concrete and steel for the beams shown using the transformed-area method.

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