Engineering analysis
218221 questions • Page 240 / 4365
1. Under which circumstance does the center of gravity of an object coincide wit
1. Under which circumstance does the center of gravity of an object coincide with the center of mass? a. when the mass is uniformly distributed b.when the center of mass is locate…
1. Unless otherwise specified in the question, responses to numerical question m
1. Unless otherwise specified in the question, responses to numerical question must be within 5% of the correct answer. Try out different responses to the following question, whic…
1. Unpolarized light of intensity I 0 is incident on three polarizing filters. T
1. Unpolarized light of intensity I0 is incident on three polarizing filters. The axis of the first is vertical, that of the second is 31° from vertical, and that of the third is …
1. Use Coulomb\'s law to determine the magnitude and direction ofthe electric fi
1. Use Coulomb's law to determine the magnitude and direction ofthe electric field at points A and B in Fig 16-57 due to the twopositive charges(Q=5.0C) Find 1. magnitude at point…
1. Use MatLab to construct a 10 second sample of cosine wave hav- ing a temporal
1. Use MatLab to construct a 10 second sample of cosine wave hav- ing a temporal frequency f- 440 Hertz (if your piano is in tune, this is A above middle C). The number of samples…
1. Use Verilog to design a module that performs one of four operations on two 4-
1. Use Verilog to design a module that performs one of four operations on two 4-bit inputs to produce one 4-bit output as specified below. Usealways and casestatements, andbegin –…
1. Use Verilog to design a module that performs one of four operations on two 4-
1. Use Verilog to design a module that performs one of four operations on two 4-bit inputs to produce one 4-bit output as specified below. Usealways and casestatements, andbegin –…
1. Use a word, a few word or a symbol to answer each question L, what is the dir
1. Use a word, a few word or a symbol to answer each question L, what is the direction of the magnetic field at point P due to either magnet or current? 8% I-2A II. What is the di…
1. Use the OSHA Standards for the construction industry (http://www.osha.gov/pls
1. Use the OSHA Standards for the construction industry (http://www.osha.gov/pls/oshaweb/owastand.display_standard_group?p_toc_level=1&p_ part_number=1926) to answe…
1. Use the denition of Laplace Transform to nd the L.T. of the following functio
1. Use the denition of Laplace Transform to nd the L.T. of the following function: (a) g(t) = cos(wt) 2. Find the Laplace transform of the following functions: ,,,,,,,,,,,(a) f(t)…
1. Use the exact values you enter in previous answer(s) to make later calculatio
1. Use the exact values you enter in previous answer(s) to make later calculation(s). A drag racer is able to complete the 0.40-km course (0.25 mi) in 9.8 s. (a) If her accelerati…
1. Use the figure below to answer the following question. The figure shows three
1. Use the figure below to answer the following question. The figure shows three supply curves for apples. If you observe the supply of apples shift from S1 to S3, which of the fo…
1. Use the file Excel-Excel-1.xls and find the best value for coefficient C usin
1. Use the file Excel-Excel-1.xls and find the best value for coefficient C using Solver: a. 1.6 b. 1.7 c. 1.8 d. 1.9 2. What does IO stand for in data acquisition? a. Analog to D…
1. Use the worked example above to help you solve this problem. A sled is tied t
1. Use the worked example above to help you solve this problem. A sled is tied to a tree on a frictionless, snow-covered hill, as shown in Figure (a). If the sled weighs 74.0 N, f…
1. Use the worked example above to help you solve this problem. In a system simi
1. Use the worked example above to help you solve this problem. In a system similar to that shown in the figure, the gas in the cylinder is at a pressure of 1.01 times 10^5 Pa and…
1. Use the worked example above to help you solve this problem. Suppose a block
1. Use the worked example above to help you solve this problem. Suppose a block with mass 3.00 kg is resting on a ramp. If the coefficient of static friction between the block and…
1. Uses of the second law of thermodynamics include defining the Kelvin scale an
1. Uses of the second law of thermodynamics include defining the Kelvin scale and predicting the direction of processes a. TRUE/FALSE When placed outside and exposed to the atmosp…
1. Using MultiSim, construct the circuit shown as Figure 3. Set the sampling rec
1. Using MultiSim, construct the circuit shown as Figure 3. Set the sampling rectangular pulses (sampling clock) as following: Vp (pulse value) = -5 volts Period: 0.125 ms Pulse w…
1. Using MultiSim, construct the circuit shown as Figure 3. Set the sampling rec
1. Using MultiSim, construct the circuit shown as Figure 3. Set the sampling rectangular pulses (sampling clock) as following: Vp (pulse value) = -5 volts Period: 0.125 ms Pulse w…
1. Using MultiSim, construct the circuit shown as Figure 3. Set the sampling rec
1. Using MultiSim, construct the circuit shown as Figure 3. Set the sampling rectangular pulses (sampling clock) as following: Vp (pulse value) = -5 volts Period: 0.125 ms Pulse w…
1. Using MultiSim, construct the circuit shown as Figure 3. Set the sampling rec
1. Using MultiSim, construct the circuit shown as Figure 3. Set the sampling rectangular pulses (sampling clock) as following: Vp (pulse value) = -5 volts Period: 0.125 ms Pulse w…
1. Using MultiSim, construct the circuit shown as Figure 3. Set the sampling rec
1. Using MultiSim, construct the circuit shown as Figure 3. Set the sampling rectangular pulses (sampling clock) as following: Vp (pulse value) = -5 volts Period: 0.125 ms Pulse w…
1. Using MultiSim, construct the circuit shown as Figure 3. Set the sampling rec
1. Using MultiSim, construct the circuit shown as Figure 3. Set the sampling rectangular pulses (sampling clock) as following: Vp (pulse value) = -5 volts Period: 0.125 ms Pulse w…
1. Using MultiSim, construct the circuit shown as Figure 3. Set the sampling rec
1. Using MultiSim, construct the circuit shown as Figure 3. Set the sampling rectangular pulses (sampling clock) as following: Vp (pulse value) = -5 volts Period: 0.125 ms Pulse w…
1. Using MultiSim, construct the circuit shown as Figure 3. Set the sampling rec
1. Using MultiSim, construct the circuit shown as Figure 3. Set the sampling rectangular pulses (sampling clock) as following: Vp (pulse value) = -5 volts Period: 0.125 ms Pulse w…
1. Using Quartus II, or an equivalent VHDL entry program, develop the text file
1. Using Quartus II, or an equivalent VHDL entry program, develop the text file and simulation for the circuit below. Attach the .vhd and simulation files. 2. What is th…
1. Using a case statement, write a Verilog HDL behavioral description of an eigh
1. Using a case statement, write a Verilog HDL behavioral description of an eight-bit arithmetic- logic unit (ALU). The circuit has a three-bit select bus (Sel), eight-bit input d…
1. Using any software plot magnitudes of 1, XL XC VL VC VR as a function of L wh
1. Using any software plot magnitudes of 1, XL XC VL VC VR as a function of L when the inductance of a series RLC circuit is varying. Save the graphs for lab. 2. Using any softwar…
1. Using only the z-transforms table, determine the z-transform of each of the f
1. Using only the z-transforms table, determine the z-transform of each of the following signals: a) 2"u[n (Use Matlab to find the answers) b) cos£n)uln] (Use Matlab to find the a…
1. Using superposition theorem , determine the current I R2 through the resistor
1. Using superposition theorem, determine the current IR2 through the resistor R2. a. a) First replace V2 with a short and calculate the current through R2, IR2(V1). IR…
1. Using the definition of entropy change, dQ = T dS, what is the entropy change
1. Using the definition of entropy change, dQ = T dS, what is the entropy change of (1) the hot reservoir, and (2) the cold reservoir, when a total amount of heat Q_H is extracted…
1. Using the flowra te data presented below, determine the volume of an equaliza
1. Using the flowra te data presented below, determine the volume of an equalization tank and determine the effect of equalization on the hourly BOD concentration. Time Period Avg…
1. Using the theoretical equation for wave speed, determine by what factor the w
1. Using the theoretical equation for wave speed, determine by what factor the wave speed would change if the linear mass density of the string were doubled. 2. Do a rough estimat…
1. Using the y -component of the initial velocity from Q#2, find the time to ris
1. Using the y-component of the initial velocity from Q#2, find the time to rise to the highest point. Show us in the figure (either one) where that highest point (apex) is (it is…
1. Using what you know about resistance, current, and Ohm\'s Law, hypothesize ab
1. Using what you know about resistance, current, and Ohm's Law, hypothesize about how parallel resistors would affect current flow. What would you expect the effect of the resist…
1. Using what you know about resistance, current, and Ohm\'s Law, hypothesize ab
1. Using what you know about resistance, current, and Ohm's Law, hypothesize about how series resistors would affect current flow. What would you expect the effect of the resistan…
1. Vacuum pressure at any point equal to (a) atmospheric pressure + absolute pre
1. Vacuum pressure at any point equal to (a) atmospheric pressure + absolute pressure (b) atmospheric pressure + gauge pressure (c) atmospheric pressure %u2212 absolute pressure (…
1. Vector A has magnitude of 13.1 and is 185° counter-clockwise up from the x-ax
1. Vector A has magnitude of 13.1 and is 185° counter-clockwise up from the x-axis. What are the x- and y-components of the vector? 2. Vector C has a magnitude 21.0 m and is in th…
1. Vector A is 3 units in length and points along the positive x-axis, vectoe B
1. Vector A is 3 units in length and points along the positive x-axis, vectoe B is 4 units in length and points along a direction 40 trom the positive s-axis, and ver 11 units and…
1. Vector A points due west and vector B points due south. a) In what direction
1. Vector A points due west and vector B points due south. a) In what direction does A - B point? 2. Vector A has a magnitude of 38 units and points west Vector B has a magnitude …
1. Vector A=6xhat, vector B= -2yhat. find vector A x vector B. Draw the vectors
1. Vector A=6xhat, vector B= -2yhat. find vector A x vector B. Draw the vectors including the resultant vector on the x, y, and z graph. 2. Vector A=6xhat, vector B= -2yhat. find …
1. Verilog Implementation Write the VERILOG code to implement the following Fini
1. Verilog Implementation Write the VERILOG code to implement the following Finite State Machine. This FSM has four states: St0, St1, St2, and St3. There are three inputs: Reset, …
1. Visitors at a science museum are invited to sit in a chair to the right of a
1. Visitors at a science museum are invited to sit in a chair to the right of a full-length diverging lens (f1 = -2.80 m) and observe a friend sitting in a second chair, 1.90 m to…
1. Vivian is walking to the hairdresser\'s at 1.3 m/s when sheglances at her wat
1. Vivian is walking to the hairdresser's at 1.3 m/s when sheglances at her watch and realizes that she is going to be late forappointment. Vivian gradually quickens her her pace …
1. Volume cycled ventilator has the throwback of: (A) Potential hyper or hypoven
1. Volume cycled ventilator has the throwback of: (A) Potential hyper or hypoventilation (B) May lead to excessive inspiratory pressure (C) Guarantees the delivery of pre-set tida…
1. WHere is the work in holding a 50 poundweight over your head? If is resting o
1. WHere is the work in holding a 50 poundweight over your head? If is resting on the floor, is the floor doing work? Why are you worn out? 2. A airplane is moving in a large circ…
1. Watch the following videos and answer the questions below: a. Metallography P
1. Watch the following videos and answer the questions below: a. Metallography Part I-Macroscopic Techniques https://www.youtube.com/watch?v=fc8ZTgYJCJw b. Metallography Part II -…
1. Watch this video clip (http://physics.info/energy-conservation/slide-spiderma
1. Watch this video clip (http://physics.info/energy-conservation/slide-spiderman.html) before beginning this problem. The height of the building Spider-Man (a.k.a. Peter Parker, …
1. Water and steam are both 100 °C when water is boiling, but a burn from steam
1. Water and steam are both 100 °C when water is boiling, but a burn from steam is worse than a burn from the water. Hypothesize why this is true. 2. What happens to the temperatu…
1. Water and steam are both 100 °C when water is boiling, but a burn from steam
1. Water and steam are both 100 °C when water is boiling, but a burn from steam is worse than a burn from the water. Hypothesize why this is true. 2. What happens to the temperatu…
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