EE 101 Lab 2 Ohm`s and Kirchhoff`s Circuit Laws

... Please Circle One: Monday Lecture Tuesday Lecture ...

Summer Physics 123: Homework 3: Bipolar Transistors I Contents 1

Chapter 1

Bipolar Transistors I – Page 1 Bipolar Transistors I

... Replace the 1K collector resistor in the circuit above by a 10K resistor. Try to make the measurements of the collector characteristics now with this larger collector resistor. Probably you find that when there is any base current at all, the voltage drop on the collector resistor is so large that y ...

Lab E3

Resistor prac (Croc Clips)

... All materials (except superconductors) resist the flow of electric current to some extent. Good conductors of electricity (eg. copper, aluminium and gold) are not strong resistors. The coiled wires in electric radiators and kettles have much more resistance. Energy has to be used to force electrons ...

King Saud University 14 marks College of Science W= T× cos60 × d

... Using the work-kinetic energy theorem and noting that the initial kinetic energy is zero, we obtain: ...

Electric Circuits

... create gravitational potential for objects that are off the ground, electric fields create electric potential for the charges in them. Remember that the direction of an electric field is the direction a + charge would want to move (so towards the - and away from the +)! A + charge has a high potenti ...

Curent, Resistance ,Direct-current Circuits

... The potential differences across resistors are the same because each is connected directly across the battery terminals Because charge is conserved, the current I that enters point a must equal the total current I1+I2 leaving that point I =I1+I2 I1=ΔV /R1 ; I2=ΔV /R2 ; I =ΔV /Req ; 1/Req = 1/R1 +1/R ...

BJT-definitions and models

Transistor Amplifier – Design

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Final Exam_Summer 2013

Chapter 1 Fundamental Knowledge

... Linear Resistor: The resistance of the idea resistor is constant and its value does not vary over time. The relation between voltage and current.(VAR) v ...

Pauli_3_High_voltage

... If the transit time of the electron is nicely synchronized with the RF field, then just as it hits, the field is right to pull the new electrons towards the other side, and a cascading avalanche can result (if the electron emission coefficient (d) is >1). ...

AC circuit - Clayton State University

... a. The voltage across the capacitor leads the voltage across the inductor by 90o. b. The voltage across the inductor leads the voltage across the capacitor by 90o. c. The voltage across the inductor leads the voltage across the resistor by 180o. d. The voltage across the inductor leads the voltage a ...

May 12th Homework Advanced

... measures current in Amperes (A). Drag the Ammeter ( ) to various parts of the circuit. A. Is the current the same throughout, or does it change? _______________________ B. What is the current in the wire now? _______________________ ...

Voltage Ratio Box - MD Electricals

... useful to step down the voltages for measurement. The unit works on 230V, 1ph, 50Hg AC Aux. Supply. Aux. Input supply to unit is provided through a mains cable with three pin plug. The uses of three core cable enable the unit to be properly grounded. The voltage ratio box has maximum input voltage o ...

Recall-Lecture 7 - International Islamic University Malaysia

... A clamping circuit that includes an independent voltage source VB. Peak value VM ...

ELECTRICITY! SERIES AND PARALLEL CIRCUITS

... ...

Chapter #9 electric-current-circuits-multiple

... presented by the graph to the right. Use this graph for questions 8 and 9. 8. What is the resistance of the wire? A. 1Ω B.0.8 Ω D. 0.4 Ω E. 0.2 Ω ...

PSI Physics Electric Current and Circuits Multiple Choice Questions

... presented by the graph to the right. Use this graph for questions 8 and 9. 8. What is the resistance of the wire? A. 1Ω B.0.8 Ω D. 0.4 Ω E. 0.2 Ω ...

electric circuit - Universiti Teknologi Malaysia

... 1. Obtain the resistors listed in Table 1. 2. Measure each resistor using analog multimeter. Record the value in the same table. 3. Connect all resistors in series. Measure the total resistance of the series connection. Record the measured value in Table 1. 4. Calculate the total resistance of the s ...

lab_04-_parallel_circuits_and_kcl1_1

... 3. Add R3 in parallel with R1 ad R2. Measure the parallel resistance of all three resistors. Then add R4 in parallel with the other three resistors and repeat the measurement. Record your results in Table 3-2. 4. Complete the parallel circuit by adding the voltage source as shown in Figure 3-2. Meas ...

Electronic Metronome

... resistor and the speaker and connect the black probe to the ANDY board ground, then the measurement displayed on the scope will be the output voltage from the LM 555 timer plus the voltage across the 200 W resistor. ◦ Alternatively, you can look at this measurement as Vcc minus the voltage dropped a ...

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Current source

A current source is an electronic circuit that delivers or absorbs an electric current which is independent of the voltage across it.A current source is the dual of a voltage source. The term constant-current 'sink' is sometimes used for sources fed from a negative voltage supply. Figure 1 shows the schematic symbol for an ideal current source, driving a resistor load. There are two types - an independent current source (or sink) delivers a constant current. A dependent current source delivers a current which is proportional to some other voltage or current in the circuit.

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Current source