# Creating This Floor Plan On AutoCAD And Was Wondering If My Design Is Equivalent

Creating This Floor Plan On AutoCAD And Was Wondering If My Design Is Equivalent. Get college assignment help at Smashing Essays creating this floor plan on AutoCAD and was wondering if my design is equivalent to the drawing so far ? Also , how can i connect what i have circled to the transformer on AutoCAD ???i got stuck with that

## In MATLAB Construct A Signal Consisting Of Four Parts: Three Sinusoid Components And One

In MATLAB construct a signal consisting of four parts: three sinusoid components and one noise component. The signal is given by A, sin (27F,T,n) Noise(n) . x(п) %3 А сos(2ЛFT,n) А, sin| 2лF,Т,п You are to calculate and display the magnitude (in dB) of the spectrum as a function frequency for two window functions. The first is to be a rectangular window and the second is to be a Bartlett (Triangular) window. In both cases comment on your observations of the displayed results. The noise is Gaussian or Normal with zero mean. F 46.00KH2, A =1.0 Strong Signal |F2 = 46.38KH2, 4 0.4 Signal nearby in frequency F 54.00KH2, A _ .002 Weak Signal atDistant frequency NoiseMean=0 Noise Variance = 103 Fs sample frequency 200KHZ N FFT Lemgth =1024 = =

## Question 4 What Will Be The Output Of The Following Program 1 #include 2

Question 4 What will be the output of the following program 1 #include 2 3 int main () 4B int a[]-(e,1,2,3,6,7,8}; int *b; 5 6 7 b-a; b -4; printf(“%d”, *b) ; return 0; 8 L1

## Question 8 What Is The Output Of The Following Program: #include Int Func1(int My_arry[],

Question 8 What is the output of the following program: #include int func1(int my_arry[], int size) int x-0, i; for (i-e;i<size;i ) my_arry[i] 2* my_arry[i] printf("%d",my_arry ); } int main int a-(1,6,3,4,5); int result =0; result = func1(a,5); – }

## Use Superposition To Solve For Io And Vo In The Circuit.(Figure 1)Take V =

Use superposition to solve for io and vo in the circuit.(Figure 1)Take v = 20 V and i = 2.1 A . a) Whats value of io? Express your answer with the appropriate units. b) Whats value of vo? Express your answer with the appropriate units.

## Use The Principle Of Superposition To Find Vo In The Circuit.(Figure 1)Take V =

Use the principle of superposition to find vo in the circuit.(Figure 1)Take v = 36 V and i = 6.3 mA . Express your answer with the appropriate units.

## Problem 1: For The Signal X(t) Of Figure P1, Plot F(t) = X(3 T)

Problem 1: For the signal x(t) of figure P1, plot f(t) = x(3 t) Problem 2: For the signal x(t) of Figure P1, plot g(t) 2x(2t)2 X(t) 2 1 10 -10 Figure P1 Problem 3: Sketch each of the following expressions (a) u(-t) (b) u(3 t) (d) (t (c) tu-t) 3) u(3 t) Problem 4 (a) Determine if the system described by yt)sin(x(t 2)) Is: (ii) Invertible (iv) Stable (vi) Linear (i) (iii) Causal Memoryless Time invariant (v) (b) Repeat part (a) for the following system y(t) = etx(t) Problem 1: For the signal x(t) of figure P1, plot f(t) = x(3 t) Problem 2: For the signal x(t) of Figure P1, plot g(t) 2x(2t)2 X(t) 2 1 10 -10 Figure P1 Problem 3: Sketch each of the following expressions (a) u(-t) (b) u(3 t) (d) (t (c) tu-t) 3) u(3 t) Problem 4 (a) Determine if the system described by yt)sin(x(t 2)) Is: (ii) Invertible (iv) Stable (vi) Linear (i) (iii) Causal Memoryless Time invariant (v) (b) Repeat part (a) for the following system y(t) = etx(t)

## N The Circuit Before The I Current Source Is Attached To The Terminals A,b,

n the circuit before the i current source is attached to the terminals a,b, the current io is calculated and found to be 3.5 mA.(Figure 1)Take i = 7.5 mA . a) Use superposition to find the value of io after the current source is attached. Express your answer with the appropriate units. b) To verifying your solution find io when all three sources are acting simultaneously. Express your answer with the appropriate units.

## Semester 1, 2018 (con…) Electronic Systems (ELEC ENG 1101/1101UAC) Question 1 Circuits, Sources And

Semester 1, 2018 (con…) Electronic Systems (ELEC ENG 1101/1101UAC) Question 1 Circuits, Sources and Loads a) Consider the circuit below. R, 12 V V 15 Q 14 V 450 mA . Use KVL to find the value of Vi i. Use Ohm’s law to find the value of h il. What is the power absorbed by the 15 resistor R? iv. Find the value of R2. v. Use KCL to find the value of .

## Find The Thevenin Equivalent With Respect To The Terminals A,b For The Circuit(Figure 1)if

Find the Thevenin equivalent with respect to the terminals a,b for the circuit(Figure 1)if v = 350 V , i = 18 A . a) Find the equivalent voltage. Express your answer with the appropriate units. b) Find the equivalent resistance. Express your answer with the appropriate units.

## A Thevenin Equivalent Can Also Be Determined From Measurements Made At The Pair Of

Get college assignment help at Smashing Essays A Thevenin equivalent can also be determined from measurements made at the pair of terminals of interest. Assume the following measurements were made at the terminals a,b in the circuit in the figure. When a 20Ω resistor is connected to the terminals a,b, the voltage vab is measured and found to be 101 V . When a 50Ω resistor is connected to the terminals a,b, the voltage is measured and found to be 221 V . (Figure 1) Find the Thevenin equivalent of the network with respect to the terminals a,b. a) Find the equivalent voltage. Express your answer with the appropriate units. b) Find the equivalent resistance. Express your answer with the appropriate units.

## Determine The Thevenin Equivalent With Respect To The Terminals A,b For The Circuit Shown

Determine the Thevenin equivalent with respect to the terminals a,b for the circuit shown in (Figure 1). Suppose that vs = 70 V and ρ = 6000. a) Find RTh. Express your answer to three significant figures and include the appropriate units. b) Find vTh. Express your answer to three significant figures and include the appropriate units.

## Design A Circuit For A Ripple Counter That Its Input Frequency Is 1kHz And

Design a circuit for a ripple counter that its input frequency is 1kHz and output frequency is 100 Hz and then draw the timing diagram for it. 6.

## A Voltmeter With A Resistance Of 61 KΩ Is Used To Measure The Voltage

A voltmeter with a resistance of 61 kΩ is used to measure the voltage vab in the circuit.(Figure 1) a) What is the voltmeter reading if v = 41 V and i = 22.2 mA ? Express your answer with the appropriate units. b) What is the deviation percentage in the voltmeter reading if the percentage of deviation is defined as [(measured−actual)/actual]×100? Express your answer with the appropriate units.

## Ex. 12 Consider A Sphere Of Charqe Of Radius A Whose Volume Charge Density

Ex. 12 Consider a sphere of charqe of radius a whose volume charge density is p,= kr in a spherical coordinate system. Determine the total charge contained within the sphere.

## Part A In The Circuit Before The I Current Source Is Attached To The

Part A In the circuit before the i current source is attached to the terminals a b, the current ig is calculated and found to be 3.5 mA.(Figure 1)Take i 8.1 mA Use superposition to find the value of i, after the current source is attached. Express your answer with the appropriate units. 7 Value Units Request Answer Submit Figure 1 of Part B To veritying your solution find io when all three sources are acting simultaneously Express your answer with the appropriate units. 2k0 a R ? L6kn 10 mA Value Units Submit Request Answer

## 1. For The Given Voltages And Currents Determine Whether The Element Involved Is A

1. For the given voltages and currents determine whether the element involved is a capacitor, inductor or a resistor. Also determine the value of involved element C,L or R. (a) v 50 sin (200t 75°) i 5 sin (200t 75°) v 800 sin (200t) (2 Points) (b) i= 40 sin (200t – 90°) (c) v 450 sin (300t 40°) i = 10 sin (300t 130″) (2 Points) (2 Points) 2. Solve the following: (a) The current through a 3 mH coil is i = 50 sin 250t. Find the sinusoidal expression for the voltage (4 Points) across the coil. (b) The current through a 10 AF capacitor isi= 10 sin 750t. Find the sinusoidal expression for the voltage across the capacitor. (4 Points) SS 3. Answer the following: (a) Write the formula for average power dissipated across the pure resistor. (b) What is average power dissipated across the pure inductor. (c) What is average power dissipated across the pure capacitor. (d) What is the power factor of a purely resistive circuit? (e) What is the power factor of a purely inductive circuit and whether it’s leading or lagging? (1 Point) (f)What is the power factor of a purely capacitive circuit and whether it’s leading or lagging?(1 Point) (1 Point) (1 Point) (1 Point) (1 Point)

## Convert The Following Complex Numbers From One Form To Another Form: 4. (a) Convert

Convert the following complex numbers from one form to another form: 4. (a) Convert the following from rectangular to polar form using formulae Z=10 j 8 (b) Convert the following from polar to rectangular form using formulae Z=25 2 60° (2 Points) (2 Points) 5. Convert the following from time domain to phasor domain: (a) 2(100) sin ot (b) 12(7) sin (ot 30) (c) v2(60) sin (ot 270) (1 Point) (1 Point) (1 Point) on given phasors: 6. Perform the mathematical operation (a) Perform phasor addition for I1 = 4 j 10 and I2 = 7 j 5. (b) Subtract V2 =2 (c) Multiply Vi = 2 2 60° with V2 = 25 15°. (d) Find I,/I2 if I, = 300 2 90° and I = 84 45°. (1 Point) (1 Point) (1 Point) (1 Point) 20 j8 from Vi= 30 j 20.

## Part A Find The Norton Equivalent With Respect To The Terminals A,b For The

Part A Find the Norton equivalent with respect to the terminals a,b for the circuit seen in (Figure 1). Suppose that v, 240 Vand R 4.6 k?. Find the equivalent current. Express your answer to three significant figures and include the appropriate units. 7 Value Units Request Answer Figure Submit 1 of 1 Part B 0.2 ia Find the equivalent resistance. 2 kn 2kn Express your answer to three significant figures and include the appropriate units. is HA 2 kn ER Ry Value Units Submit Request Answer

## 7. Answer The Followings: (a) Write The Formula For Impedance Offered By A Purely

7. Answer the followings: (a) Write the formula for impedance offered by a purely resistive circuit. (b) Write the formula for impedance offered by a purely inductive circuit. (c) Write the formula for impedance offered by a purely capacitive circuit. (1 Point) (1 Point) (1 Point) 8. Calculate total impedance for following series ac circuits: (a) For the given series RL circuit in fig (1), calculate the total impedance. (2 Points) R 6.8 0 8.2 XL Fig. (1) Series RL circuit (2 Points) (b) For the given series RC circuit in fig (2), calculate the total impedance. Xc-30 0 R-60 Nc VR E-120 V 4 20 Fig. (2) Series RC circuit (2 Points) (c) For the given series RLC circuit in fig (3), calculate the total impedance. R-30 C 40 х, C Xc=50 Fig. (3) Series RLC circuit 2 Answer the followings 9. (a) Write the resonance condition for Series RLC circuit. (1 Point) (1 point) (c) Draw current versus frequency curve for the Series RLC circuit and mention the nature of circuit in (2 points) (b) Write the formula for the resonance frequency of Series RLC circuit. a different regions of curve. 10. Determine the frequency at which Xi = R for given values of R and L (a) R-10 k2 and L- 20 mH (b) R-2 and L= 10 H (c) R-100 k and L 10 mH. (2 points) (2 points) (2 points)

Creating This Floor Plan On AutoCAD And Was Wondering If My Design Is Equivalent