Engineering analysis

1) Find the maximum magnetic field strength of an EM wave in air that has a maxi

1) Find the maximum magnetic field strength of an EM wave in air that has a maximum electric field anne strength of 10.0 V/m. 2) Find the wavelength (in air) for each of the follo…

1) Find the maximum magnitude of the acceleration. 2) Find the maximum magnitude

1) Find the maximum magnitude of the acceleration. 2) Find the maximum magnitude of the velocity. 3)Find the acceleration when the pom-pom's coordinate is A cheerleader waves her …

1) Find the pressure (in atm) at point C in atmospheres atm. P c = _____________

1)       Find the pressure (in atm) at point C in atmospheres atm.          Pc = _____________ atm 2)       Find the heat (in J) exhausted in the process B to C .          Q = ___…

1) Find the total translational kinetic energy of 2.3 L of oxygen gas held at a

1) Find the total translational kinetic energy of 2.3 L of oxygen gas held at a temperature of 0°C and a pressure of 1.3 atm. 2) A scuba diver is 44 m below the surface of a lake,…

1) Five identical resistors, each with resistance R, are combined in parallel. D

1) Five identical resistors, each with resistance R, are combined in parallel. Determine the effective resistance, R5P, of this combination. 2) Five Identical resistors, each with…

1) For a parallel plate capacitor with Area A and plate separation d a. Write th

1)      For a parallel plate capacitor with Area A and plate separation d a.       Write the total Energy stored only in terms of the E-field and again only in terms of the total …

1) For a semiconductor E vs k x near the band edge E c is given by E=E c +(h 2 /

1) For a semiconductor E vs kx near the band edge Ec is given by E=Ec +(h2/16m0)*kx2    Determine the effective mass of electrons in the conduction band. Here m0 is the mass of a …

1) For a standard wall clock, the second\'s hand is 11.8 cm long, the minute\'s

1) For a standard wall clock, the second's hand is 11.8 cm long, the minute's hand is 11.2 cm long whereas the hour's hand is 6.2 cm long. Assuming the three rotate uniformly, ent…

1) For a standard wall clock, the second\'s hand is 11.8 cm long, the minute\'s

1) For a standard wall clock, the second's hand is 11.8 cm long, the minute's hand is 11.2 cm long whereas the hour's hand is 6.2 cm long. Assuming the three rotate uniformly, ent…

1) For a star that is moving away from the Earth, 2) Which of the following is t

1) For a star that is moving away from the Earth, 2) Which of the following is the best reason for putting a telescope into orbit around the Earth?  Telescopes in orbit around the…

1) For a velocity graph of an object that is at the origin (x=0) at t=0s. At t=4

1) For a velocity graph of an object that is at the origin (x=0) at t=0s. At t=4s, what is the objects position? 2) How long does a pen fall from a 1.2 m high table (ignore air dr…

1) For each of the following quantities, state how many significant figures are

1) For each of the following quantities, state how many significant figures are shown. Or, if the situation is ambiguous, write “ambiguous.” a) 4325 kg m/s2 b) 4.0000011 V c) 0.00…

1) For each of the photons whose frequency is givenbelow, determine the energy,

1) For each of the photons whose frequency is givenbelow, determine the energy, the wavelength, and the classificationon the electromagnetic spectrum. frequency energy wavelength …

1) For each scenario listed below an inspector at the TechKnow company has a que

1) For each scenario listed below an inspector at the TechKnow company has a question that can be answered with a probability distribution. Say whether the distribution is most li…

1) For practice in counting microstates, determine how many ways there are to ar

1) For practice in counting microstates, determine how many ways there are to arrange 2 quanta among 3 one-dimensional oscillators. Use the formula below to calculate the number o…

1) For the radii of 17 cm and 19cm, calculate the value of (delta) ?x. Remember

1) For the radii of 17 cm and 19cm, calculate the value of (delta) ?x. Remember that the circumference of the circle is divided into 36 equal parts. 2) If an expierment contained …

1) For this problem i got the answer .01 but it was wrong. Can someone help me?

1) For this problem i got the answer .01 but it was wrong. Can someone help me? 2) I need help to solve for part A for this problem Thanks! Problem 10.21 Part A The elastic energy…

1) For this problem you will need to turn in Verilog code and a picture of the w

1) For this problem you will need to turn in Verilog code and a picture of the waveform generated by running a test bench. a) Write a Verilog module for the circuit below using a …

1) For your diffraction grating experiment, you need to calculate the wavelength

1) For your diffraction grating experiment, you need to calculate the wavelength of light. Derive the expression for calculating the wavelength () in terms of y1bright. Given the …

1) Four children pull on the same toy at the same time, yetthere is no net force

1) Four children pull on the same toy at the same time, yetthere is no net force on the toy. How is that possible? 2) Suppoe you are an astronaut making a space walkoutside your s…

1) Fraunhofer lines are absorption spectra where photons of a certain wavelength

1) Fraunhofer lines are absorption spectra where photons of a certain wavelength are absorbed by a gas between the photon source and a spectrometer/detector. One of these lines oc…

1) Fraunhofer lines are absorption spectra where photons of a certain wavelength

1) Fraunhofer lines are absorption spectra where photons of a certain wavelength are absorbed by a gas between the photon source and a spectrometer/detector. One of these lines oc…

1) From t = 0 to t = 3.05 min, a man stands still, and from t = 3.05 min to t =

1) From t = 0 to t = 3.05 min, a man stands still, and from  t = 3.05 min to t = 6.10 min, he walks briskly in a straight line at a constant  speed of 2.65 m/s. What are (a) his a…

1) From the application of Kirchhoff\'s voltage law, around a closed loop the po

1) From the application of Kirchhoff's voltage law, around a closed loop the polarity of a voltage source is unaffected by the direction of the assigned loop currents, but the pol…

1) From the data shown in the following table, tabulate the cut, fill, and cumul

1) From the data shown in the following table, tabulate the cut, fill, and cumulative volumes in cubic yards between stations 12 +00 and 17 +00 using an expansion factor of 1.15 f…

1) Fundamental forces are mediated by: a) exchange of particles b) actions from

1) Fundamental forces are mediated by: a) exchange of particles b) actions from distance c)aether d) direct action 2) When particle and antiparticle interact a) they create a quar…

1) Give an example of temporary structure that uses trusses? 2) Give an example

1) Give an example of temporary structure that uses trusses? 2) Give an example of temporary structure that uses cables? 3) Give an example of temporary structure that uses column…

1) Given a current of 1.1[A]; a coil radius of 0.14[m]; and N=130, then what is

1) Given a current of 1.1[A]; a coil radius of 0.14[m]; and N=130, then what is the strength of the magnetic field in milliTeslas?                                   [mT] 2). Let's…

1) Given the acceleration a 10- 5x and at x 0 v 10, what is the velocity as a fu

1) Given the acceleration a 10- 5x and at x 0 v 10, what is the velocity as a function of x? 2) A mass, m, initially at rest is dropped from a height of 100 meters. The force due …

1) Given the transfer function shown below, convert it into a difference equatio

1) Given the transfer function shown below, convert it into a difference equation. z^2-0.7071z/z^2-1.41z+1 2.       The impulse response of a discrete time system is given by h(n)…

1) Gp2- Logp2--A x D Lecture o 3-Kinen x GPI A02--Electric F x c Physics questio

1) Gp2- Logp2--A x D Lecture o 3-Kinen x GPI A02--Electric F x c Physics question X BIOL320 GeneticsL x B Courses Blackboe x Lecture 03-Kinem X C www.webassign. t/web/Student/Assi…

1) Gp2- Logp2--A x D Lecture o 3-Kinen x GPI A02--Electric F x c Physics questio

1) Gp2- Logp2--A x D Lecture o 3-Kinen x GPI A02--Electric F x c Physics question X BIOL320 GeneticsL x B Courses Blackboe x Lecture 03-Kinem X C www.webassign. t/web/Student/Assi…

1) Gravitational waves A. Are how pulsars pulse. B. Carry material into black ho

1) Gravitational waves A. Are how pulsars pulse. B. Carry material into black holes. C. Are traveling distortions of space and time. D. Do not carry energy. 2) An isolated black h…

1) HCl consists of one H and Cl atom separated by 0.127 nm, the bond length. The

1) HCl consists of one H and Cl atom separated by 0.127 nm, the bond length. The Cl atom has a partial charge of -0.177e and the H atom has a partial charge of +0.177e, where e = …

1) HCl consists of one H and Cl atom separated by 0.127 nm, the bond length. The

1) HCl consists of one H and Cl atom separated by 0.127 nm, the bond length. The Cl atom has a partial charge of -0.177e and the H atom has a partial charge of +0.177e, where e = …

1) Hard-disk drives: A picture of a hard disk drive is shown below. The part tha

1) Hard-disk drives: A picture of a hard disk drive is shown below. The part that stores data is labeled as #4 and is called the platter. A platter is made of a hard material such…

1) Hearing the siren of an approaching fire truck, you pull over to the side of

1) Hearing the siren of an approaching fire truck, you pull over to the side of the road and stop. As the truck approaches, you hear a tone of 460 Hz ; as the truck recedes, you h…

1) How are stasis and the rhetorical situation similar? how are they different?

1) How are stasis and the rhetorical situation similar? how are they different? give an example applying both to a specific situation to highlight your assertion 2) Use the Tetrad…

1) How are stasis and the rhetorical situation similar? how are they different?

1) How are stasis and the rhetorical situation similar? how are they different? give an example applying both to a specific situation to highlight your assertion 2) Use the Tetrad…

1) How are the shear modulus of Elasticity G, and the Young Modulus, E, related

1) How are the shear modulus of Elasticity G, and the Young Modulus, E, related (A) G is directly proportional to E. (B) G increases with increasing E, but not directly (c) G vari…

1) How can you induce Vemf in a loop with a constant cross-sectional area A plac

1) How can you induce Vemf in a loop with a constant cross-sectional area A placed in a uniform magnetic field B? a. Move the loop in the opposite direction of the magnetic field …

1) How can you induce Vemf in a loop with a constant cross-sectional area A plac

1) How can you induce Vemf in a loop with a constant cross-sectional area A placed in a uniform magnetic field B? a. Move the loop in the opposite direction of the magnetic field …

1) How can you induce Vemf in a loop with a constant cross-sectional area A plac

1) How can you induce Vemf in a loop with a constant cross-sectional area A placed in a uniform magnetic field B? a. Move the loop in the opposite direction of the magnetic field …

1) How could we use Newton\'s Law of Universal Gravity and the Second Law to cal

1) How could we use Newton's Law of Universal Gravity and the Second Law to calculate the acceleration due to gravity "g"? 2) Why do you think it is easier to launch a satellite i…

1) How do we find the DTFT of a sequence given its z-transform X(z)? 2) Consider

1) How do we find the DTFT of a sequence given its z-transform X(z)? 2) Consider the system function: a) Find all of the poles and zeros for this system b) Find the difference equ…

1) How do we find the DTFT of a sequence given its z-transform X(z)? 2) Consider

1) How do we find the DTFT of a sequence given its z-transform X(z)? 2) Consider the system function: a) Find all of the poles and zeros for this system b) Find the difference equ…

1) How does the potential difference V 2 across bulb 2 in Fig. 6 compare with th

1) How does the potential difference V2 across bulb 2 in Fig. 6 compare with the potential difference V6 across bulb 6? More than. Less than. Same. Can't tell without numbers for …

1) How is a position vs. time graph for walking slowly away from the detector di

1) How is a position vs. time graph for walking slowly away from the detector different from one for a person walking away more quickly? 2) How is a position vs. time graph differ…

1) How is a position vs. time graph for walking slowly away from the detector di

1) How is a position vs. time graph for walking slowly away from the detector different from one for a person walking away more quickly? 2) How is a position vs. time graph differ…

1) How is the capacitance of a capacitor related to the charge stored on the cap

1) How is the capacitance of a capacitor related to the charge stored on the capacitor and the potential difference across the capacitor? a) Capacitance is the ratio of the potent…