You will have a significant freedom in the design of the disk rotor components with a minimum number of pre-defined dimensions linked to the LAST 3 digits of your student number; you will have to provide fully dimensioned detail engineering drawings of the components and drawing of the assembly. The disk brake rotor set will be composed from 3 components: 1. Disk brake 2. Disk brake hub 3. Bolts

The assembly is used to support the distributed load w = 10 KN/m. Determine the factor of safety with respect to yielding for the steel rod BC and the pins at A and B if the yield stress for the steel is 250 MPa and in shear is 125 MPa. The rod has a diameter of 13 mm and the pins each have diameter of 10 mm. Furthermore, determine the amount of elongation in the rod BC knowing that the modulus of Elasticity of steel (E = 200 GPa). Note: pins at A & C are subjected to double shear.

Problem 5: What is the bending stresses 0.05m above the neutral axis and is it tension or compression?

Determine the force in each member of the truss and state if the members are in tension or compression. Set P, =30 kN, P, =15 kN.

Problem 1: Make a part in SolidWorks from the given drawing sheet below. All dimensions are in inches. All sketches must be fully defined. (25 points)

Problem 2: find the location of the centroid and moment of inertia about the Z-axis for this cross section(15 points)

A passive, linear circuit consists of ideal resistor (R) and ideal inductor (L) in series. The system input is the total voltage (vVin) across both components; the output is defined as the voltage (vout) across the inductor. Calculate the: (a) value of R (2) required to achieve the time constant t, which, together with L, is specified 5in the data sheet. (b) Gain (dB) and phase (deg) of the transfer function vout/Vin at radian frequencies 0, such that OT = 0.1, 1.0, and 10.

Try to use the most efficient method to complete the model.

Q2. Perform a static structural analysis on the part shown in Figure 2 A) The part is made from general magnesium alloy B) Use mesh size of 5 mm C) The I cross-section on the other end of the loading surface is fixed as shown in figure 3 D) A local load of 10 kN is acting on a hexagonal area as shown in figure 3 a) Part modelling to the given dimension with the split face [10 points] b) What is the mesh statistics? [10 points] Nodes: Elements: c) What is the total deformation in mm, in the direction of force applied? [10 points] MAX: d) What is the equivalent Von Moises stress in MPa? [10 points] MAX: e) What is the factor of safety based on von Moises stress criterion? [10 points]