ABA Terminology Flashcards - Unit 9 Transcript

I was given a practice question for transforming equation. In the image I will have a slide the lecture note of an example of it being done but I do not understand what was done exactly. Please explain how to answer the question. Thank you

Part b please. Really urgent. Thank you so mhch :)

Phase (deg) Magnitude (dB) 20 20 40 180 135 90 45 10' 0 ġ(t) 하 R www Mechanical Deformation Piezo Charge Amplifer 10 10 Frequency (rad's) v(t) Figure 2: Frequency response function of a microphone Figure 3: A simple model for piezoelectric sensor 3. Figure 3 is a simple circuit modeling a piezoelectric sensor. Mechanical deformation of the sensor induces charge q(t), which is first modeled as a current source. The capacitance C models the piezoelectric material, and the resistance R represents impedance of a charge amplifier with output voltage v(t). Usually, C is fixed for a sensor, but R is adjustable from the amplifier. The frequency response function from q(t) to v(t) is Answer the following questions. G(w)= = jRw 1+jRCw (6) (a) Consider the case when C = 1 Farad and R = 0.5 Ohm. (The numbers are chosen to ease calculations. In practical applications, C is much smaller and R is much bigger.) If the input deformation induces electric charge = q(t) cost+2 sin 3t (7) predict the…

How do you transform from ECEF to ECI? I have the r vector in ecef and eci and the modified julian date. How do you use the rotation matrices to get to r_eci. r_ecef = [-1016.215157; 5431.875007; -3174.1]; r_eci = [-2010.4; -5147.4; -3174.1]; MJD = 57923.6666667; % Modified Julian Date

You are watching a live concert. You can also find the concert streaming live on Spotify. About how far must you stand from the stage in order for the live concert and the live stream to be perfectly in sync? HINT: Assume the radio signal (Spotify) has to travel all the way around the Earth. circumference of the Earth (average): 40,041,000 m Speed of sound: 345 m/s Speed of light: 300,000,000 m/s

Mechanical Vibration Question is image

Please help, I need a solution for this LTI System problem. Please answer in 20 minutes.

Q5. For a point at distance 50 m and angle 450 to the axis which of the following statements are correct? Consider an infinite baffled piston of radius 5 cm driven at 2 kHz in air with velocity 10 m/s. You may choose multiple options. a. The constant term is given by 515.03 b. The distance dependent term is given by e-jk50/50 c. The directivity term is given by j1(Ka sin 450)/sin 450 d. There is no time dependent term.

permanent-magnet (pm) genera x Bb Blackboard Learn L STAND-ALONE.mp4 - Google Dri x O Google Drive: ülwgjuó jc lis u O ME526-WindEnergy-L25-Shuja.p x O File | C:/Users/Administrator/Desktop/KFUPM%20Term%232/ME526/ME526-WindEnergy-L25-Shuja.pdf (D Page view A Read aloud T) Add text V Draw Y Highlight O Erase 17 of 26 Wind Farms Consider the arrangement of three wind turbines in the following schematic in which wind turbine C is in the wakes of turbines A and B. Given the following: - Uo = 12 m/s A -XẠC = 500 m -XBC = 200 m - z = 60 m - Zo = 0.3 m U. -r, = 20 m B - CT = 0.88 Compute the total velocity deficit, udef(C) and the velocity at wind turbine C, namely Vc. Activate Windows Go to Settings to activate Windows. Wind Farms (Example Answer) 5:43 PM A 4)) ENG 5/3/2022 I!

Figure 1 shows a six degree of freedom industrial robot. i. Construct the coordinates frames based on the D-H representations. ii. Complete the D-H parameter as illustrated in Table 1.

2. Cell may be created using techniques known as Rank Order Clustering (ROC), Distance Matrix Algorithm (DTA), Row and Column Masking (RCM) and Similarity Coefficient Algorithm (SCA). Apply any three these techniques to the data below to derive a cellular solution and comment on your answer. ☑ ☑ Machines A B C Ꭰ E F G H I J 1 X X 2 X X X X ×× ☑ X 3 4 X 5 X 6 X ☑ 7 X 8 X ☑ 9 X X 10 X X X 11 X X 12 X 13 X 14 X 15 X X 16 X 17 X 18 X 19 X 20 X Parts X

Consider the following pdf:   Is this pdf discrete or continuous?

An unmanned submarine is equipped with temperature and depth measuring instruments and has radio equipment that can transmit the output readings of these instruments back to the surface. The submarine is initially floating on the surface of the sea with the instrument output readings in steady state. The depth measuring instrument is approximately zero order and the temperature transducer first order with a time constant of 50 seconds. The water temperature on the sea surface, , is 20 °C and the temperature at a depth of x meters is given by the relation:  If the submarine starts diving at time zero, and thereafter goes down at a velocity of 0.5 meters / second, draw a table showing the temperature and depth measurements reported at intervals of 100 seconds over the first 500 seconds of travel. Show also in the table the error in each temperature reading.What temperature does the submarine report at a depth of 1000 meters?

the same answer as found above. Tutorial Problems No. 2.2 1. Find the ammeter current in Fig. 2.57 by using loop analysis. [1/7 A] (Network Theory Indore Univ. 1981) 10 IK a 10 in 2K 10 10 10K IOK 10 4V 2K 100 V 10 T50 V 10 VT IK 10 Fig. 2.59 Fig. 2.58 Fig. 2.57

An object attached to a spring undergoes simple harmonic motion modeled by the differential equation d²x = 0 where x (t) is the displacement of the mass (relative to equilibrium) at time t, m is the mass of the object, and k is the spring constant. A mass of 3 kilograms stretches the spring 0.2 meters. dt² Use this information to find the spring constant. (Use g = 9.8 meters/second²) m k = + kx The previous mass is detached from the spring and a mass of 17 kilograms is attached. This mass is displaced 0.45 meters below equilibrium and then launched with an initial velocity of 2 meters/second. Write the equation of motion in the form x(t) = c₁ cos(wt) + c₂ sin(wt). Do not leave unknown constants in your equation. x(t) = Rewrite the equation of motion in the form ä(t) = A sin(wt + ), where 0 ≤ ¢ < 2π. Do not leave unknown constants in your equation. x(t) =

O 17161489 C Get Homework Help With b My Questions | bartleby O Mail - Castro Alvarez, Flavic X Content A learn-us-east-1-prod-fleet01-xythos.s3.amazonaws.com/5c1270dbb5a74/17161489?response-cache-control=private%2C%20max-age%3D21600&respon. ☆ ME 3022 - HW 19 1. (More practice from Monday) A 90° elbow in a horizontal pipe is used to direct a flow of oil (SG = 0.87) upward at a rate of 40 kg/s. The cross- sectional diameter of the elbow is a constant 20 cm. The elbow discharges at A into a large holding tank where the level of oil is 1.8 m above A. The 50 cm "weight" of the elbow and the oil in it is 50 kg. Determine (a) the gage pressure at the inlet of the elbow and (b) the anchoring force needed to hold the elbow stationary. Take the momentum-flux correction factor to be 1.03 40 kg/s at both the inlet and the outlet. Activar Windows Ve a Configuración para activar Windows. Esperando blackboard.ohio.edu. 17:07 P Escribe aquí para buscar a ) ENG 14/10/2020 近

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Pearson eText Study Area mylabmastering.pearson.com Access Pearson P Pearson MyLab and Mastering Problem 15.106 P Course Home b Answered: HW_02.pdf EE 213-01 > Assignments HW_#... 8 of 8 Document Sharing User Settings The two spheres A and B each have a mass of 400 g. The spheres are fixed to the horizontal rods as shown in (Figure 1) and their initial velocity is 2 m/s. The mass of the supporting frame is negligible and it is free to rotate. Neglect the size of the spheres. Part A If a couple moment of M = 0.3 N · m is applied to the frame, determine the speed of the spheres in 3 s. Express your answer to three significant figures and include the appropriate units. Figure 1 of 1 ☐ ? v = Value Units Units input for part A Submit Request Answer Return to Assignment Provide Feedback ■Review

I need to find the command and plot on Matlab.

Please show step by step work

Consider a system whose model is given by dx(t)/dt + 0.4 x(t) = sin(3t). What is the time constant of this system? Do not include units. Write your answer in scientific notation with 3 significant figures (2.14e0).

I saw this in an research paper I was reading. This initial estimation of Euler rates will involve a simplified linear Kalman filter called a rate filter. The function of the rate filter is to obtain data from the satellite magnetometer and, based on knowledge of the satellite model and several key assumptions, estimate the roll, pitch and yaw rates of FalconSAT-3. Can you help me code the kalman filter in MATLAB?

Harmonic oscillators. One of the simplest yet most important second-order, linear, constant- coefficient differential equations is the equation for a harmonic oscilator. This equation models the motion of a mass attached to a spring. The spring is attached to a vertical wall and the mass is allowed to slide along a horizontal track. We let z denote the displacement of the mass from its natural resting place (with x > 0 if the spring is stretched and x 0 is the damping constant, and k> 0 is the spring constant. Newton's law states that the force acting on the oscillator is equal to mass times acceleration. Therefore the differential equation for the damped harmonic oscillator is mx" + bx' + kr = 0. (1) k Lui Assume the mass m = 1. (a) Transform Equation (1) into a system of first-order equations. (b) For which values of k, b does this system have complex eigenvalues? Repeated eigenvalues? Real and distinct eigenvalues? (c) Find the general solution of this system in each case. (d)…

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