Reference no: EM13489721
Problem-1
Pin-connected truss structure is shown in Fig.1. The concentrated forces are applied at E (10,000 lb) and F (15,000 lb). Point A is connected to a solid foundation and B is supported by a roller. Young's modulus E = 10x106 lb/in2. As shown in the figure, the total height and length of the structure are 6 ft and 16 ft, respectively.
1) Solve the reaction forces (Ax,Ay, Bx, By ) at Pont A and B
1-2) Calculate the deflections (δ1, δ2, ......δ9) for all the truss members (indicate if each truss is tensile (+) or compressive (-) with sign
1-3) By applying the virtual forces of P and Q in energy method, calculate the vertical displacement at D and the horizontal displacement at B
Free-Body Diagram should be recalculated with P and Q. Then, contrary to 1-1), an internal force at each member (Fi) is the function of P and/or Q. The horizontal reaction force R3 must be also considered due to Q (Please refer the below figure). For δ at D, Calculate
Then, apply for P=0. For δH at B, Calculate 
Then, apply for Q=0.
1-4) Now B point is fully supported as shown in the below figure (no movement). Find out the horizontal reaction force of Q and the vertical deflection at D by using Energy method
Problem-2
2-1) A coil spring with the radius of R is subjected to a load P. The radius of this spring is r and rolled n times.
2-1) Define the torsion moment Mt (which is constant through the length and the function of P and R) and derive a formula of the spring deflection of δ by Mt with the function of δ = δ(P, R, G, r, n) using Energy method.
In the above Free-Body Diagram, the deflection by P is ignored. It is assumed that the, torsional moment is only the energy. Then, 
and L is the total length of spring under torsion (2ΠRn = Rθ* and dz = Rdθ. By using this relationship, it is convenient to change the integral from 
2-2) Calculate spring coefficient k = P/δ and discuss the design on how much spring radius r should be changed to increase k two times
2-3) We consider a coil spring that P is applied at the end (instead of the centre). Calculate the deflection from torsional moment Mt and bending moment Mb and, then discuss the deflection from the torsional moment Mt compared to the result of 2-1)
|
Define the torsion moment
: Calculate spring coefficient k = P/δ and discuss the design on how much spring radius r should be changed to increase k two times
|
|
Calculate the vertical displacement
: calculate the vertical displacement at D and the horizontal displacement at Free-Body Diagram should be recalculated with P and Q.
|
|
Prepare a consolidated balance sheet
: Assume that Paper Inc. issues 9,600 shares of its $20 par value common stock for 75% of Skins outstanding stock on January 1, 2012.
|
|
Explain bromine is a reddish-brown liquid
: Bromine is a reddish-brown liquid. Calculate its den-sity (in g/mL) if 650 g of the substance occupies 188mL.
|
|
Calculate the deflection from torsional moment
: Calculate the deflection from torsional moment Mt and bending moment Mb and, then discuss the deflection from the torsional moment Mt compared to the result of 2-1)
|
|
Calculate the speed of the fetal heart wall
: A 2.30-MHz sound wave travels through a pregnant woman's abdomen and is reflected from the fetal heart wall of her unborn baby. Calculate the speed of the fetal heart wall at the instant this measurement is made
|
|
Find out the synthesis of 3-hexanol
: Determine the synthesis of 3-hexanol starting from acetylene. Use your book and choose the reagents. It will take several steps and many reagents to get to the product.
|
|
Develop an audit program
: Procedures are how the evidence is to be gathered (these must be very specific and contain action verbs- not look at some stuff or check some stuff).
|
|
What is the pressure in the throat
: A venturi is constructed of a 9.0 cm diameter pipe with a 2.0 cm diameter throat. What is the pressure in the throat
|