2.The body falling with speed up strikes and maintainscontact with the platform supported by a nest ofsprings. The acceleration of the body after impact isa = gcy, where c is a positive constant and y ismeasured from the original platform position. If themaximum compression of the springs is observed tobe y determine the constant c.Ans. c =2+2gym2Ут

The problem involves a body falling onto a platform supported by springs. After the impact, the body…

Answered: 2. The body falling with speed up…

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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P= 13 kN In the given figure, all the dimensions, loading condition and cross-section of the beam are given. If the allowable tension stress om= 120 MPa and the allowable compression stress oeme=100 MPa ; q=2 kN/m \B 4m 1m a) Construct the internal force diagrams (N, T, M). b) Calculate the moments of inertia (I, I, I„.). c) Check whether the beam can carry the given loading safely. К.С. 2cm 8cm 2cm 4 сm C. |G X+ 9 cm Note: The modulus of elasticity in the material is E=200 GPa, K.Ç. :Line of forces Kiriş enkesiti
Beam determine the support reactions (solve using integral)
Problem 2: A solid circular shaft is acted upon by the torques as shown. If G= 12, 000 ksi determine: a. Rotation of wheel D with respect to A. b. Shear stress at point E Diameter of shaft: A-B = 2in C-D = 2in B-C = 4in T1=3 m in.kips T2=7 m in.kips Ta= 8.5 Tm in.kips T4= 4.5 m in.kips T1 T2
For the beam and loading shown, determine the internal bending moment at point "a" in kN.m. Consider F = 4 kN and wo = 6 kN/m. Ignore the weight of the beam. 2.5 m→ F wo A Co 6 kN.m 8 m a. ·2 m⋅ B
Dont forget to draw the FREE BODY DIAGRAMS ALSO PLEASE! (:
11.
A wooden beam 150 mm wide by 300 mm deep is loaded as shown. fb = 8 MPa a) Determine the maximum capacity of the beam. b) Determine the value of maximum value of P if x is 2m.

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