Engineering analysis

2. Automotive Suspension (10 points) when designing an automotive suspension sys

2. Automotive Suspension (10 points) when designing an automotive suspension system (for simplicity, only discuss one of the four wheels) we can use a spring damper model, as show…

2. Bats are capable of navigating using the earth\'s field-a plus for an animal

2. Bats are capable of navigating using the earth's field-a plus for an animal that may fly great distances from its roost at night. If, while sleeping during the day, bats are ex…

2. Bicycle Speed Sensor http://surlybikes.com/bikes/steamroller fork Suppose a s

2. Bicycle Speed Sensor http://surlybikes.com/bikes/steamroller fork Suppose a speed sensor for a bicycle is made by mounting a small coil on the inside of the fork, facing the sp…

2. Blimps Ahoy A blimp and its cargo have mass m = 780 kg. Lift for the blimp is

2. Blimps Ahoy A blimp and its cargo have mass m = 780 kg. Lift for the blimp is provided by gas inside the blimp's envelope (the balloon part). Assume the gas In the balloon Is a…

2. Blimps Ahoy A blimp and its cargo have mass m = 780 kg. Lift for the blimp is

2. Blimps Ahoy A blimp and its cargo have mass m = 780 kg. Lift for the blimp is provided by gas inside the blimp's envelope (the balloon part). Assume the gas In the balloon Is a…

2. Block 1 is placed on a 30 degree incline, and is attached to block 2 by a rop

2. Block 1 is placed on a 30 degree incline, and is attached to block 2 by a rope. Block 2 is hanging from a pulley over the top edge of the incline and is also completely submerg…

2. Block 1 is placed on a 30 incline, and is attached to block 2 by a rope. Bloc

2. Block 1 is placed on a 30 incline, and is attached to block 2 by a rope. Block 2 is hanging from a pulley over the top edge of the incline and is also completely submerged in a…

2. Bombing Raid. During World War lI, Allied forces carried out daring, daylight

2. Bombing Raid. During World War lI, Allied forces carried out daring, daylight air raids to bomb targets in Nazi Germany. (This was the inspiration for the 1990 film Memphis Bel…

2. Building a Laser Ruler. Measuring distances to high precision is a critical g

2. Building a Laser Ruler. Measuring distances to high precision is a critical goal in engineering. Numerous devices exist to perform such measurements, with many involving laser …

2. C+ -3 points SerPSE9 36.P013 An object of height 2.70 cm is placed 33.0 cm fr

2. C+ -3 points SerPSE9 36.P013 An object of height 2.70 cm is placed 33.0 cm from a convex spherical mirror of focal length of magnitude 12.5 cm. (a) Find the location of the ima…

2. Caesar Cipher: De-Caesar Encrypted data on phones has been a hot topic in the

2. Caesar Cipher: De-Caesar Encrypted data on phones has been a hot topic in the news lately. For this problem, we would like to help out by writing a function that can decrypt da…

2. Calculate the Effective Modulus of Subgrade Reaction (k) per Table 3.2 of the

2. Calculate the Effective Modulus of Subgrade Reaction (k) per Table 3.2 of the 1993 AASHTO Rigid Pavement Design Guide for the pavement configuration given in Figure 1 and for t…

2. Calculate the Effective Modulus of Subgrade Reaction (k) per Table 3.2 of the

2. Calculate the Effective Modulus of Subgrade Reaction (k) per Table 3.2 of the 1993 AASHTO Rigid Pavement Design Guide for the pavement configuration given in Figure 1 and for t…

2. Calculate the force (in newtons) exerted on a rocket, given that the propelli

2. Calculate the force (in newtons) exerted on a rocket, given that the propelling gases are expelled at a rate of 1400 kg/s, with a speed of 67000 m/s at takeoff. 3. A 17000 kg r…

2. Calculate the w/c ratio given the following information for a 9 yd load of co

2. Calculate the w/c ratio given the following information for a 9 yd load of concrete (note that w/c can also be found as w/cm ratio; for practical purposes both mean the same) T…

2. Calculating Average, Variance and Standard Deviation: Write a program that cr

2. Calculating Average, Variance and Standard Deviation: Write a program that creates an array of 100 random numbers from 17 to 42. Then calculate the average, the variance, and t…

2. Chapter 10 Conceptual Questions: (a) A roller coaster rolls down a frictionle

2. Chapter 10 Conceptual Questions: (a) A roller coaster rolls down a frictionless track, reaching a speed vo at the bottom. If you want the car to go twice as fast at the bottom,…

2. Chapter 10 Conceptual Questions: (a) A roller coaster rolls down a frictionle

2. Chapter 10 Conceptual Questions: (a) A roller coaster rolls down a frictionless track, reaching a speed vo at the bottom. If you want the car to go twice as fast at the bottom,…

2. Charge by Induction: Two neutral metallic spheres, one on the right and the o

2. Charge by Induction: Two neutral metallic spheres, one on the right and the other on the left, are touching each other. A positively charged glass rod is brought near the spher…

2. Circle the most accurate answer (12% total): 500 level (6 part question): Do

2. Circle the most accurate answer (12% total): 500 level (6 part question): Do a, b, c, d, e, f 400 level -(4 part question): Do a, b, c, d A. Compare a 4s orbital to a 2s orbita…

2. Classify soils A, D, E, H. K, N, and P in the shown table (Figure 1-30 in tex

2. Classify soils A, D, E, H. K, N, and P in the shown table (Figure 1-30 in textbook) using 1) Unified System (USCS) and 2) AASHTO system. Describe briefly steps used to classify…

2. Clock P and clock Q leave the spatial origin of an inertial frame S at time t

2. Clock P and clock Q leave the spatial origin of an inertial frame S at time t 0, defining the origin event O. Both clocks move along the + axis, with clock P originally traveli…

2. College algebra concludes at the point where we learn how to solve systems of

2. College algebra concludes at the point where we learn how to solve systems of linear equations in three variables through substitution and elimination. However, this is only th…

2. Complete the function stub below. The function preforms a single analog to di

2. Complete the function stub below. The function preforms a single analog to digital conversion on the ATmega32 using the specified parameter “channel” which is ADC channel on wh…

2. Complete the mix design table with the following mix design parameters w/cm 0

2. Complete the mix design table with the following mix design parameters w/cm 0.50 b) total cementing materials content 400 kg per cubic meter c) Type GUb Blended cement-50% Type…

2. Computing (e\" - 1)/x. Consider two algorithms for the evaluation of f(x) (e

2. Computing (e" - 1)/x. Consider two algorithms for the evaluation of f(x) (e Algorithm A if x-0 else end Algorithm B else f end (y-1)/ logy Use Matlab to calculate f(x) for x-10…

2. Connect each material to the corresponding material class. ductility , brittl

2. Connect each material to the corresponding material class. ductility , brittle , lattice , ceramic , stress , plastic deformation , yield strenght , elastic deformation , strai…

2. Consider a 1D harmonic oscillator where x is the displacement of the bond len

2. Consider a 1D harmonic oscillator where x is the displacement of the bond length r from its equilibrium value (x= r-r.) As the vitrational quantum number n increases, the most …

2. Consider a concave mirror with curvature R. An ant of height h walks towards

2. Consider a concave mirror with curvature R. An ant of height h walks towards the mirror along the optical axis at speed v. (a) When the ant's location is 2R from the mirror, wh…

2. Consider a system that consists of three particles: a mass of 10kg lies at th

2. Consider a system that consists of three particles: a mass of 10kg lies at the point (1m, 0), a mass of 2 kg lies at the point(2m,1m), and a mass of 5 kg lies at the point (0,1…

2. Consider a zone on the interior of a multistory building (no external walls)

2. Consider a zone on the interior of a multistory building (no external walls) located in Phoenix Arizona. This zone has 600 square feet of floor space and has 10 people normally…

2. Consider an engine operating with a monatomic ideal gas of 0.5 moles on a 3 s

2. Consider an engine operating with a monatomic ideal gas of 0.5 moles on a 3 stroke cycle with a PV diagram shown below. in the stroke A to B the internal energy increases by 28…

2. Consider an ideal dV = 1.5 Volt charged battery connected to (+) and (-) char

2. Consider an ideal dV = 1.5 Volt charged battery connected to (+) and (-) charged AV= 1.5 Volts+ plates, creating a capacitor with electric field vectors of magnitudes E 30 N/C …

2. Consider an insulated cylinder with a movable insulated piston (see figure be

2. Consider an insulated cylinder with a movable insulated piston (see figure below). Initially the cylinder contains an ideal gas at temperature T1 and pressure Pi on both sides …

2. Consider the Quadrature Encoder (ST) and EY block in the P&ID; in Figure 2. T

2. Consider the Quadrature Encoder (ST) and EY block in the P&ID; in Figure 2. The Quadrature Encoder outputs two squarewave signals like the ones sketched here 5V oV time 5V …

2. Consider the below MIPS code snippet: 1: lui $t0, 0x0A0B 2: ori $t0, $t0, 0x0

2. Consider the below MIPS code snippet:             1: lui $t0, 0x0A0B             2: ori $t0, $t0, 0x0C0D             3: sw $t0, 0($0)             4: lb $t0, 2($0)              …

2. Consider the collection of four charges B,C,D and E shown below. The magnitud

2. Consider the collection of four charges B,C,D and E shown below. The magnitude of each charge is 1nC and the side of one small square is 0.2m. Remember that the electric potent…

2. Consider the collection of four charges B,C,D and E shown below. The magnitud

2. Consider the collection of four charges B,C,D and E shown below. The magnitude of each charge is 1nC and the side of one small square is 0.2m. Remember that the electric potent…

2. Consider the egg from problem 1 as it strikes the ground. How would you descr

2. Consider the egg from problem 1 as it strikes the ground. How would you describe the change in the momentum of the earth-egg system due to the collision of the egg the ground a…

2. Consider the following problem dealing with the “Gompertz equation”, which is

2. Consider the following problem dealing with the “Gompertz equation”, which is a simple model for tumor growth: a. Write a code to solve the system of ODEs listed in the top lin…

2. Consider the following scenario using the heavy lifting charts in the specifi

2. Consider the following scenario using the heavy lifting charts in the specifications for a Manitowoc 12000 Crawler Lift Crane to be downloaded separately from the class website…

2. Consider the following statement made by a student about each of the four mot

2. Consider the following statement made by a student about each of the four motions in problem The magnitude of the force exerted by the block on an individual string is the same…

2. Consider the following system with a 2 kg mass sitting on a table, connected

2. Consider the following system with a 2 kg mass sitting on a table, connected to both 1 kg and 3 kg masses by strings which go over two separate pulleys and are pulling on the 2…

2. Consider the forces exerted on your forearm to keep it in equilibrium in the

2. Consider the forces exerted on your forearm to keep it in equilibrium in the horizontal position. Most of this force is provided by the tension in your bicep muscle (see figure…

2. Consider the image in canvas \'combined_lanes jpg\'. This image was obtained

2. Consider the image in canvas 'combined_lanes jpg'. This image was obtained from the TurtleBota ra (focal length 3.6mm, and pixel size 1.12 m x 1.12 m). Burger robot with a Rasp…

2. Consider the planet found around Proxima Centauri that has been described as

2. Consider the planet found around Proxima Centauri that has been described as near or in the "Habitable Zone". In the HZ, the temperature of the planet should allow for liquid w…

2. Consider the same computer system used in problem 1. The following trace of a

2. Consider the same computer system used in problem 1. The following trace of accessed page numbers was recorded over time: 1, 0, 2, 2, 1, 7, 6, 7, 0, 1, 2, 0, 3, 0, 4, 5, 1, 5, …

2. Consider the situation as described in the diagram (in the previous problem),

2. Consider the situation as described in the diagram (in the previous problem), and the following statements. If the statement is true, answer `T', if it is false, answer `F', an…

2. Consider the system pictured in the figure below. A 20.0-cm horizontal wire o

2. Consider the system pictured in the figure below. A 20.0-cm horizontal wire of mass 15.0 g is placed between two thin, vertical conductors, and a uniform magnetic field acts pe…

2. Consider the system shown below. The masses are: m1= 3.00[kg], m2= 2.00[kg] a

2. Consider the system shown below. The masses are: m1= 3.00[kg], m2= 2.00[kg] and, M= 1.50[kg]. The wheel has a radius R of 0.50[m]. The system starts from rest, the string is ve…