ECE 110/Spring 2025/Test 1

This page contains the list of topics for ECE 110 Test 1. The test covers material through Lecture 8 and Homework 4. It will be closed-book, closed notes, no calculator.

Note 1: tests Spring 2020 and before were closed-book, closed-note. Tests from Summer of 2020 through Summer of 2021 were open-book, open-notes. Tests from Fall of 2021 on were closed-book, closed-notes. Also note that the instructions on the front of the test will be very similar to the instructions on the front of the EGR 224 Spring 2023 test.

Note 2: the order of lectures for ECE 110 changed in Fall of 2022, moving digital logic to the end. Previous ECE 110 tests will have a digital logic - those will now be on the final exam for ECE 110.

Note 3: a slight schedule change moved some material's homework later (and past Test 1); previous tests have Superposition and potentially Thévenin and Norton Equivalent Circuits; those will not be on Test 1 for Spring 2025.

Previous Tests

Previous tests are available at Dr. G's Big Box of Random. Furthermore, some problems from other classes' tests are relevant:

• BME 153 Test 1 Spring 2009
• ECE 61 Test 1 Spring 2001
• ECE 61 Test 1 Fall 2001
• ECE 61 Test 2 Spring 2001
• ECE 61 Test 2 Fall 2001
• EGR 224 Test 1 (2009-present)

Test I Coverage

1. Basic electrical entities - be able to fill in the following chart: \(\begin{align} \begin{array}{cccc} \mbox{Name} & \mbox{Variable} & \mbox{Units} & \mbox{Equation} \\ \hline \hline \mbox{charge} & q & \mbox{coulombs (C)} & q(t) = q(t_0) + \int_{t_0}^t i(\tau)~d\tau \\ \hline \mbox{current} & i & \mbox{amperes (A)} & i = \frac{dq}{dt} \\ \hline \mbox{work} & w & \mbox{joules (J)} & \\ \hline \mbox{voltage} & v & \mbox{volts (V)} & v = \frac{dw}{dq} \\ \hline \mbox{power} & p & \mbox{watts (W)} & p = \frac{dw}{dt} = vi \\ \hline \mbox{resistance} & R & \mbox{ohms}~(\Omega) & R = \frac{v}{i} \\ \hline \mbox{conductance} & G & \mbox{siemens}~(S) & \\ \hline \end{array} \end{align}\)
2. Power - know the general equation for instantaneous power absorbed or delivered by an element, and know three equations that can be used to calculate power in a resistive element. Know the difference between absorbed power and delivered power. Be able to solve circuit variables using the idea that net power in a circuit is zero.
3. Sources - know the four kinds of dependent source and the properties of sources (i.e. current sources can have any voltage across them and voltage sources can have any amount of current through them).
4. Ohm’s Law - know Ohm’s Law and the requirement of the passive sign convention for resistors.
5. Kirchhoff’s Laws - know what Kirchhoff’s Laws are, be able to state them clearly in words, and be able to apply them to circuit elements to solve for unknown currents and voltages.
6. Equivalent resistances - be able to simplify a resistive network with series and parallel resistances or build a network with a particular resistance by putting given resistors in series and/or parallel combinations.
7. Node voltage method - be able to solve for voltages, currents, and power absorbed or delivered by clearly using the node voltage method to determine node voltages, possibly followed by functions of those node voltages to get element currents, voltages, or powers. Note - you will get to pick what labeling method you use.
8. Current methods - be able to solve for voltages, currents, and powers absorbed or delivered by clearly using the mesh or branch current method to determine mesh or branch currents, possibly followed by functions of those currents to get element currents, voltages, or powers. Note - you will get to pick if you use the mesh current or branch current method.
9. Current and voltage division - be able to efficiently solve circuit problems by using current and voltage division.

Specifically Not On The Test

1. Superposition
2. Thévenin and Norton Equivalent Circuits
3. Delta-Wye / Pi-T converstions
4. Reactive elements (inductors and capacitors)
5. Maple, MATLAB, Multisim, Python, TinkerCad, or Arduino
6. Transistors
7. Turboencabulators