# ECET 110 ECET110 ECET/110 ENTIRE COURSE HELP – DEVRY UNIVERSITY

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## ECET 110 ECET110 ECET/110 ENTIRE COURSE HELP – DEVRY UNIVERSITY

ECET 110 Week 1 Homework

ECET 110 Week 2 Homework

ECET 110 Week 2 iLab Analysis of a DC Parallel Circuit using Simulation and Actual Construction

ECET 110 Week 3 Homework

ECET 110 Week 3 iLab Analysis of a DC Series-Parallel Circuit

ECET 110 Week 4 Homework

ECET 110 Week 4 iLab Format Mesh Analysis

ECET 110 Week 5 Homework

ECET 110 Week 5 iLab Thevenin’s and Superposition Theorem

ECET 110 Week 6 Homework Capacitors

ECET 110 Week 6 iLab Transient Analysis of a Resistor-Inductor Circuit

ECET 110 Week 7 Homework

ECET 110 Week 7 iLab Transient Analysis of a Resistor-Inductor Circuit

ECET 110 Quiz 2

ECET 110 Quiz 3

ECET 110 Week 1 iLab Analysis of a Series Circuit using Simulation and Actual Construction

ECET 110 Week 2 Quiz

ECET 110 Week 6 iLab Transient Analysis of a Resistor-Inductor Circuit

ECET 110 Week 6 Quiz

### Description

## ECET 110 ECET110 ECET/110 ENTIRE COURSE HELP – DEVRY UNIVERSITY

ECET 110 Week 1 Homework

ECET 110 Week 2 Homework

ECET 110 Week 2 iLab Analysis of a DC Parallel Circuit using Simulation and Actual Construction

ECET 110 Week 3 Homework

ECET 110 Week 3 iLab Analysis of a DC Series-Parallel Circuit

ECET 110 Week 4 Homework

ECET 110 Week 4 iLab Format Mesh Analysis

ECET 110 Week 5 Homework

ECET 110 Week 5 iLab Thevenin’s and Superposition Theorem

ECET 110 Week 6 Homework Capacitors

ECET 110 Week 6 iLab Transient Analysis of a Resistor-Inductor Circuit

ECET 110 Week 7 Homework

ECET 110 Week 7 iLab Transient Analysis of a Resistor-Inductor Circuit

ECET 110 Quiz 2

ECET 110 Quiz 3

ECET 110 Week 1 iLab Analysis of a Series Circuit using Simulation and Actual Construction

ECET 110 Week 2 Quiz

ECET 110 Week 6 iLab Transient Analysis of a Resistor-Inductor Circuit

ECET 110 Week 6 Quiz

## ECET 110 ECET110 ECET/110 ENTIRE COURSE HELP – DEVRY UNIVERSITY

**ECET 110 Week 1 Homework**

Why do you **never** apply an ohmmeter to a live network?

What is the voltage across a 220 Ω resistor if the current through it is 5.6 mA?

What is the current through a 6.8 Ω resistor of the voltage drop across it is 24V?

What is the power delivered by a 6V battery if the current drain is 750mA?

The current through a 4k Ω resistor is 7.2mA. What is the power delivered to the resistor?

**Chapter 5**

Find the individual (not combination of) elements (voltage source and/or resistors) that are in series.

Find total resistance Rt for each configuration.

For the series configuration in Fig. 5.92, constructed of standard values:

For the series configuration in Fig. 5.93, constructed using standard value resistors:

For the circuit in Fig. 5.97, constructed of standard value resistors:

Find the unknown quantities for the circuit of Fig. 5.98 using the information provided.

Using Kirchhoff’s voltage law, find the unknown voltages for the circuits in Fig. 5.105.

Use the voltage divider rule, find the indicated voltages in Fig. 5.111.

Using the voltage divider rule or Kirchhoff’s voltage law, determine the unknown voltages for the configurations in Fig. 5.112. Do not calculate the current!

## ECET 110 ECET110 ECET/110 ENTIRE COURSE HELP – DEVRY UNIVERSITY

**ECET 110 Week 2 Homework**

__CHAPTER 6__

4. For each circuit board in __Fig. 6.74__, find the total resistance between connection tabs 1 and 2.

10. For the network of Fig. 6.80:

24. Using Kirchhoff’s current law, determine the unknown currents for the parallel network in Fig. 6.93.

32. For each network of Fig. 6.101, determine the unknown currents.

## ECET 110 ECET110 ECET/110 ENTIRE COURSE HELP – DEVRY UNIVERSITY

**ECET 110 Week 2 iLab Analysis of a DC Parallel Circuit using Simulation and Actual Construction**

**Objectives:**

The objectives this week were to effectively learn to simulate and construct a parallel circuit and learn to troubleshoot issues that may be had by OPEN or Shorted circuits. Also to learn how to calculate current and resistance within parallel circuits

Did you prove Kirchhoff’s Current Law to be true for a parallel circuit

Explain how you proved Kirchhoff’s Current Law.

How much power did this circuit dissipate?

What would happen to the current I_{5} if one of the resistors, like **R**** _{4,}**is SHORT or OPEN circuited by chance? Will the current, compared to the original value:

## ECET 110 ECET110 ECET/110 ENTIRE COURSE HELP – DEVRY UNIVERSITY

**ECET 110 Week 3 Homework**

**Chapter 7: Problems 1 (a, b, c), 2 (a, b), 3, 8, 10**

1. Which elements (individual elements, not combinations of elements) of the networks in Fig. 7.60 are in series? Which are in parallel? As a check on your assumptions, be sure that the elements in series have the same current and that the elements in parallel have the same voltage. Restrict your decisions to single elements, not combinations of elements.

2. Determine *R** _{T}* for the networks in Fig. 7.61.

3. Find the total resistance for the configuration of Fig. 7.62.

8. For the network of Fig. 7.67:

10. For the circuit board in Fig. 7.69: