Answered: H(s) = TM (s) Qin (s) Determine the…

H(s) = TM (s) Qin (s) Determine the transfer function Given the resistance: R=7, mass: M=8, specific heat for the mass is cp=200, outside temperature TA = 0°C. Initial conditions for TM = 0°C

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

See similar textbooks

Related questions

Q: The characteristic equation of a certain system is s² +6bs +5b-10=0, where b is a constant. (a) For…

A: To choose: The correct option. Given: The characteristic equation of the system is s2+6bs+5b-10=0.

Q: consider a system that involves a lower critical solution temperature, the components are more…

A: Introduction: lower critical solution temperature is that temperature above which the component is…

Q: т, 1, 1 m2. F(t) = F, sin wet find the govering equations of the following system. system response…

Q: Find the transfer function of the rotational mechanical system shown in the figure, where θ1(t) is…

A: Given, Inertia: J1=50 kg-m2J2=100 kg-m2 Damping coefficient: D2=100 N-m.s/rad Spring constant:…

Q: 1. Consider the mass-spring-damper system shown below. m = X f X(s) (a) Calculate the transfer…

A: The objective of the question is to analyze a mass-spring-damper system. We are asked to calculate…

Q: x(1) M = 1 kg K, = 5 N/m fy = 1 N-s/m f(1) = u(t)N K, M f(t)

Q: Q1) Find the langrage equation of the system then find the transfer function if L=2m & m=5kg,…

Q: -2t Find out the transfer function If the impulse response of a certain unknown system is e of this…

Q: k Y(t) wwww -fo) m frictionless surface

A: Given:

Q: Consider the heat conduction in a half disk of radius c, with the bottom flat side insulated and the…

Q: Q1/A) If the thermometer is used as a measuring device in a control system. What is the degree vɛ /…

A: Given Dataτ=0.2minyss=25°CM=250-25=225°Ct1=0.8mint2=5min

Q: Q1) Find the langrage equation of the system then find the transfer function if L=2m & m=5kg,…

Q: For pure metals, what happens to the thermal conductivity if the temperature is extremely high?…

A: Thermal conductivity depends upon lattice vibrations and electronic effect but for pure metals…

Q: Consider the system shown in Figure below. Simplify this diagram and produce the final transfer…

Q: A bar of length (0 ≤ x ≤ 0) is initially held at T = 0. After t = 0, the side at x = 0 is held at T…

A: Given: length of the bar=l Temperature at x=0 is→T1=0 And temperature at x=l is→T2=To Because…

Q: Use the SMART problem-solving methodology in determining the damping constant of the dashpot as…

Q: at DMZ For the following Second-order system and initial conditions, find the transient solution:…

Q: differential (difference) equations of the physical system given in the figure below, Find the…

Q: Calculate the steady-state temperatures for nodes 1 to 9 in Figure P3-58. h = 25 W/m² °C T = 5°C 2 3

Q: Find the transfer function, G(s) = X3(s)/F(s), for each of the system shown in the figure below. а.…

Q: (2) FOR THE SYSTEM BELOW LET M = 10kg, K= 4000 /m (= 40 Kg/s, x(0) = 0, AND x(0) = -1 m/s. (a) (b)…

Q: Qi: Find the time period for a lump system to reach the average temperature 0.693 is (7 +T)/2 Ans

Q: 3. For the Laplace equation,-²u = 0, on a rectangular domain shown in figure, give the global…

A: Given:To find:Write the global condensed equation.

Q: et what is the stretch in the spring wvhen the system is in equilibrium?

Q: Consider a spring-mass damper system whose block of mass “m” is connected to the top wall by a…

A: The mass of the block is m. The applied force on the block is u(t). The displacement of the block is…

Q: A bar of length 1 m is insulated along its sides. It is initially at a uniform temperature of 15° C…

Q: (b) Consider the system shown in the Figure below, calculate the transfer function G(s) = 0,(s) %3D…

Q: Q2: Obtain the transfer function X(s)/F(s) for the system shown in figure (2) where M1=M2=1Kg and…

A: Given, M1=M2=1 kgB=1 N/m/s

Q: A bar OI Isula temperature of 15° C and a t=0 the ends are plunged into ice and maintained at a…

A: Given DataT=15°Ct=0

Q: In an invasive blood pressure measurement set-up, the catheter tip is covered with surgical glove…

Q: (b): The total work when theta =0 equal to:

Q: Q4/ Write the nodal equation for nodes 1 through 9 shown in Figure h=25 W/m2-°C T-5°C 1 3 T= 100°C…

A: since left wall is insulated the temperature of left wall in steady state will be = 100C…

Q: Q4: Consider the system shown in the figure. k = 250KN/ m м c = 6000 N.s / m m=1000 kg m =2 kg e =…

Q: A food product with 80% moisture content in a 7 cm diameter can wants to be frozen. product density…

A: Write the expression for the freezing time using the Plank’s equation denoting the variables.

Q: Consider the 2-DOF System with the given parameters (m₁ = 1kg, k, = 100 N/m, c, = 0.2 Ns/m, m₂ =…

Q: k m m2 02 0,(s) =? 02(s)

Q: Q4/ For the figure below the spring is used to stop a 10 kg package. If the maximum deflection in…

Q: The two-dimensional (2-D) heat equation is given by du at (d²ud²u) ¹1 a x ² + √y ² = α

A: The 2-D heat equation is given by:The ADI scheme proceeds as follows:1: Discretize the equation in…

Q: For question in the following systems: 1. Classify the transfer function to proper and improper. 2.…

A: y(t) represents displecementf(t) represents force applied on the massSo, Total force acting on…

Q: nown system is f(t) = sin(wt) and the output is the displacement y(t), determine Y(s). %3D k Y(t) m…

Q: 1. Consider the system shown: a. Determine the differential equation describing the system X2 b.…

Q: 1. Consider the system shown: Determine the differential equation describing the system b. Draw the…

A: Solution: Given Data:

Q: Q4. Derive the governing differential equations for the system shown below.

Question

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

SEE SOLUTION Check out a sample Q&A here

Step 1: Given details

VIEW

Step 2: Transfer function

VIEW

Solution

VIEW

Step by step

Solved in 3 steps

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Fick’s Law of Diffusion and Mass Transfer

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, mechanical-engineering and related others by exploring similar questions and additional content below.

Similar questions

Q5/ A ring has a diameter of 21 cm and a cross-section area of 10 cm2. The ring is made up of semicircular sections of cast iron and cast steel, with each joint having a reluctance equal to an air-gap of 0.2 mm. find the ampere-turns required to produce a flux of 8x10-4 Wb. The Neglect fringing and leakage effects. Cast Iron 0.2 mm 21'Cms 0.2 mm Cast Steel
Q) For figures shown below, use energy equivalent method to derive the differential equation governing the system using the indicated generalized coordinates. E ·L2 X
Derive the governing differential equation for the system shown in Figure 2 subject to gravity. m1 m2 X1 X2 Œ Figure 2: System for problem 2
Obtain the transfer function Y2(s)/F(s) for this system.
Find the transfer function G(s) =X2 (s) /F (s), for the translational mechanical system shown in Figure (b). x1(1) x2(t) 1 N/m f() I kg 1 N-s/m 1 kg Frictionless Figure. (b)
For the transfer function below, Find the time constant. 361 G(s) = s2 + 16s + 361
D4.
2. Two copper-constantan thermocouples with 1 and 2 mm diameters are taken from ambient at 20 °C, and dipped into boiling water at 100 °C. a. Find the time constant for each TC, where Time Constant, t=mc/hA Assume: Density, p = 8500 kg/m3 Specific Heat, c = 400 J/kgK Heat transfer coefficient for the TC's is h = 400 W/m²C. b. Find the output from each thermocouple after 10 seconds in the boiling water. y = Kxo (1-e¹½) Temperature (C) 110 100 90 80 70 60 50 40 30 20 10 0 1 01 L L 2 3 4 5 6 1 L 7 8 Time (s) 9 10 1mm diameter 2mm diameter 1 11 12 13 14
Q.12. Obtain the transfer function F(s)/X(s) for the system shown in figure below 2M 120 2K 3M 2M w 30 3K wwwwww 35 50