# 3 Of 6 #2 Dekrmine He Output Current And Output Resisthnce For 13.2k Aleo

3 Of 6 #2 Dekrmine He Output Current And Output Resisthnce For 13.2k Aleo. Get college assignment help at Smashing Essays Please show work for both parts should get answers shown in picture

## The Two Coaxial Cylindrical Conductors Are Atp =d And P -f As Shown. You

The two coaxial cylindrical conductors are atp =d and p -f as shown. You can assume that the conductor at the center is a solid conductor and is at Vo volts and the one on the outside at p-fis a very thin conductive shell and is held at 0 volts. The left side is filled with a material with permittivity of

## Q2) A Section Of A Sphere Is Described By 0 R2,00

Q2) A section of a sphere is described by 0 R2,00<9°,30° sØ900 Find: (a) sketch the outline of the section. (b) the surface area of the spherical section. (c) the enclosed volume.

please help me to answer this question. Tq An alternating voltage has the equation V= 141.4 sin 377t V. Calculate: r.m.s and average voltage. Voltage frequency. Form factor. The instantaneous voltage when t=1.8ms. Draw the phasor diagram for V

## An Arc Located In The X-y Plane And Defined Q4) Electric Charge Is Distributed

an arc located in the x-y plane and defined Q4) Electric charge is distributed along by r=2 cm and 0 , if p = 5 pC/m Find E at (0,0,z) TT

## The Switch In The Circuit Shown Has Been Closed For A Long Time Before

The switch in the circuit shown has been closed for a long time before it is opened at t Find i(t) for t 2 0 0. Solution R2 20 i(t) C v(t) 0.5 F R1 30 20.25 H 5 A 1/3 0 )u(t)A 4. 2r -3e i(0) 3 A, v(0) 0V, i(t)=(6e1.

## Exercise-3 The Switch In The Circuit Has Been Open For A Long Time Before

Exercise-3 The switch in the circuit has been open for a long time before it is closed at t 0. Find the voltage v(t) across the capacitor for t 0. R3 Solution R1 12 kn V2 12 kn V. R2 24 V v(t) C 12 V 12 kn 0.2 uF V)=[12-6e1 Ju(| -1250

## Consider The Circuit Given, Containing An Inductor L. The Initial Inductor Current Is Io=0.

Consider the circuit given, containing an inductor L. The initial inductor current is io=0. Circuit Parameters: Vs=4V, Is=2mA, R1-2k, R2=8k, L- 10mH R2 Vs R1 Is a) Determine the differential equation that describes the behavior of , using Norton equivalent circuit. b) Determine the time constant t and the expression for the current i(t) c) Determine voltage VL d) Determine the current i

## In The Circuit, The AC Voltage Is Applied To The R-L-C Circuit. 10mH 100/2sin

In the circuit, the AC voltage is applied to the R-L-C circuit. 10mH 100/2sin 10’r 0.2mF HH a) Find the current flowing through the circuit. Express in the instantaneous form i(t). Assume the steady state condition. (hint: use the complex impedance to calculate the current) b) Find the active power and the reactive power supplied by the voltage source.

## Ix. (1pt) Identify Which Region An N-Channel MOSFET Will Be Operating If Vn=2V Region

ix. (1pt) Identify which region an N-Channel MOSFET will be operating if Vn=2V Region Vas Vos 1 5 (1pt) What values of Vat and Vet should you expect for a BJT in active region? x.

## Question 4: Part A (5 Pts) Calculate The Value Of R To Limit Current

Get college assignment help at Smashing Essays Question 4: Part A (5 pts) Calculate the value of R to limit current in LED to 10mA when transistor is in full saturation (Assume V=0.2). Also find voltage drop across LED 3svo- Part B: (5 pts) For the given BJT emitter degeneration circuit. Find ie le, and Ve Also indicate the region BJT is operating in. 13k2, B, 100 Vec 10V, Von 3.5v, R. 250k, Re 11k0, R: V BE

## Figure 1 Is An Extract From The Maxon Data Sheet For Several Motors.  Extract

Figure 1 is an extract from the Maxon data sheet for several motors.  Extract from Maxon data sheet a.Taking the data for the 6 volt motor, plot the torque, the current, the electrical power input and mechanical power output against the motor speed (in radians per second) when the motor is supplied with 6V. You may find it most useful to plot all four traces on a common graph, with motor speed as the x axis. Note: the maximum permissible speed quoted in the specification is much higher than the no-load speed. b.By taking the values of the input and output power at various speeds, find the approximate motor speed (to within the nearest 25 rad s-1) at which the highest efficiency is obtained when running at its rated 6 volts. c.Use the traces you have drawn to report the efficiency of the motor when running at a speed of 200 rad s-1, close to its maximum power output. d.Calculate the stall torque of this motor if the supply voltage were reduced to 5V. e.Calculate the maximum mechanical power output when running at 5V.

## I Just Need Number 4 And Number 6, Please. (make Sure Its Correct). These

i just need number 4 and number 6, please. (make sure its correct). these are the answers for the rest (you might need them). 1- 1.1117 2- 82.35 3- 8.5 5- 8.5 thank you.

## Find The Voltage V(t) Across The Capacitor For T = 0 In The Circuit.

Find the voltage v(t) across the capacitor for t = 0 in the circuit. Assume that v(0) =V = 1 V and i(0) = l = 1 A. The current source is applied to the circuit at t 0. Rt L Solution: 0.2 H i(0) 0.7 0 4 u(t) A C v(0) R2 v(t) 0.2 F 0.5 n v){2 e”[-c o]}ut) cos(4t)0.5sin(4t) V

## Using Final Theorem: : How Did We Get The Above With The Equation Given

using final theorem: : How did we get the above with the equation given below(please show all steps so I can get it right) :

## The Initial Current Through The Inductor Is I(0) = 1 A And The Initial

The initial current through the inductor is i(0) = 1 A and the initial voltage across the capacitor is 2 V in the circuit. R1 Rg Find the current i(t) through the inductor for t 20 1 0 0.5 n Solution: (0) Ve R2 1 5 u(t) V 0.5 H 0.25 F V(0) (t) e-2t[-1.5 cos(2t) 0.5 sin(2t)]}u(t)A (t){2.5

## Find The Voltage Vo(t) In The Circuit Shown R 500 Vs() = 20 Cos(2100t 30)

Find the voltage vo(t) in the circuit shown R 500 vs() = 20 cos(2100t 30) V volt) 100 F 50 mH v.(t) 10.8423 cos(2t100t – 27.17°) V

## Find The Mesh Currents , 2, And I3 In The Circuit Shown Solution R1

Find the mesh currents , 2, and I3 in the circuit shown Solution R1 wW 5 0 C j9 -j6n 5/60 R2 70 20/30 0.6161 -j4.3225 = 4.36624-81.89°A I, 20.4560 j3.8205 = 3.847 Z-96.81° A –2.5-j4.3301 5 Z- 120° A

## Use The Superposition Principle To Find V In The Circuit R2 WW V 12

Use the superposition principle to find V in the circuit R2 wW V 12 0 R3 R 10 n 18 0 12 2430 3-60 C j 21 n -j 15 n V from I- VA= 18.6516 j19.4499 = 26.9478 Z 46.28° V, V V from 49.8265 – j29.4194 = 57.86352 Z 30.56° V, V VA V= 68.4781- /9.9695 = 69.2 Z-8.280 V.

## Use Source Transformation To Find Vo In The Circuit L Solution J 15 R1

Use source transformation to find Vo in the circuit L Solution j 15 R1 R2 C 5 A – -j 12 n 100 80 0 Vo 5.9988 -j16.2466 = 17.318 -69.730 V.

## Find The Thévenin Equivalent Voltage Vth And Thévenin Equivalent Impedance Zth Between A And

Find the Thévenin equivalent voltage Vth and Thévenin equivalent impedance Zth between a and b for the Circuit R1 Solution 5Q R3 R2 W a 60 4 0 Vs 2j8n 15200 V T-i5n b Vn 12.8096 j2.1853 = 12.995 9.68° V Zth 2.9083 j0.9213 3.0507 Z 17.5780

3 Of 6 #2 Dekrmine He Output Current And Output Resisthnce For 13.2k Aleo