) Determine the deflection at the end B of the clamped A-36 steel strip. The spring...

A helical compression spring is made of 302 stainless steel wire. The outside coil diameter of...

A helical compression spring is made of 302 stainless steel wire. The outside coil diameter of the spring is 33.2 mm. The wire diamter is 2.8 mm. The ends are plain and ground, and there are total of 8.5 turns. Determine the deflection of the spring when it is subjected to a compression force of 10 N. In this condition, wil the stress generated in the spring be beyond the maximum allowable torsional stress?

The A-36 steel pipe in (Figure 1) has a 6061-T6 aluminum core. It is subjected to...

The A-36 steel pipe in (Figure 1) has a 6061-T6 aluminum core. It is subjected to a tensile force of 200 kN k N . The pipe has an outer diameter of 96 mm m m and an inner diameter of 86 mm m m . For A-36 steel, Est=200GPa E s t = 200 G P a , and for 6061-T6 aluminum, Eal=68.9GPa E a l = 68.9 G P a . A)Determine the average normal stress in the...

A microfabricated accelerometer has an inertial mass suspended by a single silicon beam clamped at one...

A microfabricated accelerometer has an inertial mass suspended by a single silicon beam clamped at one end. The proof mass of the accelerometer, suspended at the free end, measures1 mm × 1 mm × 400 μm and the suspension beam has dimensions l = 1 mm, w = 100 μm, and t = 10 μm. Young’s modulus of silicon is E =1.9 x 1011 N/m^2. Assume there is no gravity and ignore the mass of the suspension beam. If the...

The cord AB has a length of 5 ft and is attached to the end B...

The cord AB has a length of 5 ft and is attached to the end B of the spring having a stiffness k = 10 lb/ft. The other end of the spring is attached to a roller C so that the spring remains horizontal as it stretches. If a 10-lb weight is suspended from B, use the free-body diagram for the ring at B to determine the necessary unstretched length of the spring, so that θ = 40◦ for equilibrium....

Stress is applied to a 20-in. steel bar that is clamped in a fixed position at...

Stress is applied to a 20-in. steel bar that is clamped in a fixed position at each end. Let Y = the distance from the left end at which the bar snaps. Suppose Y 20 has a standard beta distribution with E(Y) = 10 and V(Y) = 100 7 . (a) What are the parameters of the relevant standard beta distribution? (b) Compute P(2 ≤ Y ≤ 18). (Round your answer to three decimal places.) (c) Compute the probability that...

3.) What is the most accurate statement concerning the spring constant (k)?          A. The spring...

3.) What is the most accurate statement concerning the spring constant (k)?          A. The spring constant is the ratio of the displacement of the spring from its equilibrium position divided by the force applied to the spring          B. When the displacement of the spring from its equilibrium position is plotted (y-axis) against the force applied to the spring that caused             C. Spring constant is a unitless number related to the “stiffness” or strength of the spring.            ...

1) We have a spring that has a spring constant of 30.5 N / m. Determine...

1) We have a spring that has a spring constant of 30.5 N / m. Determine what force must be applied to compress it about 5 centimeters. 2) Determine what is the period and frequency of a mass-spring system, which has a mass of 300 grams and an elastic constant of 30 N / m. 3) A spring mass system has a mass of 400 grams and oscillates at a frequency of 30 Hz. Determine the elastic constant of the...

A vertical steel wire of length 1 m and diameter 2 mm is fixed to a...

A vertical steel wire of length 1 m and diameter 2 mm is fixed to a rigid support at its upper end and has a horizontal uniform disc of moment of inertia 0.040 kgm2 attached to the free end. What will be the frequency of torsional oscillations of the disc? Determine also the angular frequency and the periodic time. The wire has a modulus of rigidity G of 80 GPa

5. A solid steel shaft has a diameter of 200mm. The shaft transmits 550kW at 300r/min....

5. A solid steel shaft has a diameter of 200mm. The shaft transmits 550kW at 300r/min. It is also subjected to a bending moment of 10kNm and an end thrust of 400kN. Find: 5.1 The applied torque 5.2 The applied shear stress 5.3 The applied bending stress 5.4 The stress due to the end thrust Draw a stress element and matching Mohr’s circle clearly showing Both principle stresses and the maximum shear stress at: 5.5 the top of the shaft’s...

A spring with k=45 N/m is oriented vertically with one end fixed to the ground. A...

A spring with k=45 N/m is oriented vertically with one end fixed to the ground. A 0.5 kg mass on top of the spring compresses it. 1. Provide a conceptual explanation of what is happing for each of the following cases : a. You hold the mass while you gently compress the spring, and when you release the mass it sits at rest atop the spring. b. You place the mass on the uncompressed spring and release it. c. You...