Written by students who passed Immediately available after payment Read online or as PDF Wrong document? Swap it for free 4.6 TrustPilot
logo-home
Exam (elaborations)

Title: Revision Test for APPLIED SCIENCE Unit 15: Electrical Circuits and Applications

Rating
-
Sold
-
Pages
10
Grade
A+
Uploaded on
18-03-2025
Written in
2024/2025

Title: Revision Test for APPLIED SCIENCE Unit 15: Electrical Circuits and Applications Description: This revision test is designed to help you consolidate your knowledge of APPLIED SCIENCE Unit 15. It covers essential topics such as electrical symbols, Ohm’s Law, Kirchhoff’s Laws, resistor networks, energy and power calculations, capacitance, AC/DC characteristics, and more. Each question is accompanied by a detailed rationale to reinforce your understanding and boost exam readiness. Hashtags: #AppliedScience #ElectricalCircuits #RevisionTest #ExamPrep #OhmsLaw #KirchhoffsLaw #ScienceRevision

Show more Read less
Institution
Electrical Circuts And Their Applications
Course
Electrical circuts and their applications

Content preview

Below is a set of revision test questions for APPLIED SCIENCE Unit 15
(Electrical Circuits and their Applications), with each question
followed by a brief rationale explaining the answer. You can use these
to self‐assess your understanding of key concepts from the unit.

Revision Test Questions

Question 1 – Electrical Symbols and Definitions
Match each of the following circuit components with its correct symbol:

A. Cell
B. Battery
C. Switch (closed)
D. Fixed resistor
E. Filament lamp

Options:

1. A circle with a plus and minus sign inside

2. A series of small “zigzags”

3. Two or more cells connected together

4. A break in the circuit with a line bridging the gap

5. A curved line (representing a light bulb)

Rationale:
Understanding and recalling the standard symbols is fundamental. For example, a cell is typically
represented as a single cell with a longer positive line and a shorter negative line; a battery is a series of
such cells; a resistor is shown as a zigzag line; a switch in its closed position is shown as a break with a
connecting line; and a filament lamp symbol often resembles a small circle with filament lines.



Question 2 – Ohm’s Law Calculation
A resistor with a resistance of 6.0 Ω is connected across a 12 V power supply. What is the current
flowing through the resistor?
A. 0.5 A B. 1.0 A C. 2.0 A D. 4.0 A

Rationale:
Ohm’s law states that V=IRV = IRV=IR. Rearranging gives I=VRI = \frac{V}{R}I=RV. Substituting in the
numbers:
I=12 V6.0 Ω=2.0 AI = \frac{12\,V}{6.0\,Ω} = 2.0\,AI=6.0Ω12V=2.0A
This shows the correct answer is C. Knowing how to rearrange and apply Ohm’s law is critical for
predicting circuit behavior.

, Question 3 – Kirchhoff’s First Law
At a junction in a circuit, two currents leave the junction, measuring 3 A and 4 A. If the current entering
the junction is IinI_{\text{in}}Iin, what is IinI_{\text{in}}Iin?
A. 1 A B. 3 A C. 7 A D. 12 A

Rationale:
Kirchhoff’s Current Law (KCL) states that the total current entering a junction equals the total current
leaving it. Here, Iin=3 A+4 A=7 AI_{\text{in}} = 3\,A + 4\,A = 7\,AIin=3A+4A=7A. This simple summing
demonstrates conservation of charge in circuits.



Question 4 – Resistors in Series and Parallel
You have three resistors: 100 Ω, 200 Ω, and 300 Ω. Calculate:

a) The total resistance when they are connected in series.
b) The total resistance when they are connected in parallel.

Options:
a) Series:
A. 600 Ω B. 300 Ω C. 200 Ω D. 100 Ω

b) Parallel (approximate value):
A. 50 Ω B. 85 Ω C. 600 Ω D. 1000 Ω

Rationale:
For series: Rtotal(series)=100+200+300=600 ΩR_{\text{total(series)}} = 100 + 200 + 300 =
600\,ΩRtotal(series)=100+200+300=600Ω (Answer a: A).
For parallel:
1Rtotal(parallel)=1100+1200+1300\frac{1}{R_{\text{total(parallel)}}} = \frac{1}{100} + \frac{1}{200} +
\frac{1}{300}Rtotal(parallel)1=1001+2001+3001
1Rtotal(parallel)=0.01+0.005+0.00333≈0.01833\frac{1}{R_{\text{total(parallel)}}} = 0.01 + 0.005 +
0.00333 \approx 0.01833Rtotal(parallel)1=0.01+0.005+0.00333≈0.01833
Thus,
Rtotal(parallel)≈10.01833≈54.6 ΩR_{\text{total(parallel)}} \approx \frac{1}{0.01833} \approx
54.6\,ΩRtotal(parallel)≈0.018331≈54.6Ω
Closest option is approximately 50 Ω (Answer b: A). This reinforces how resistor combinations affect
overall resistance.



Question 5 – Capacitance in Series and Parallel
Three capacitors have values: 10 µF, 20 µF, and 30 µF. Calculate:

a) The total capacitance when connected in parallel.
b) The total capacitance when connected in series.

Connected book

Written for

Institution
Electrical circuts and their applications
Course
Electrical circuts and their applications

Document information

Uploaded on
March 18, 2025
Number of pages
10
Written in
2024/2025
Type
Exam (elaborations)
Contains
Questions & answers

Subjects

$18.49
Get access to the full document:

Wrong document? Swap it for free Within 14 days of purchase and before downloading, you can choose a different document. You can simply spend the amount again.
Written by students who passed
Immediately available after payment
Read online or as PDF

Get to know the seller
Seller avatar
dennismuthoni1

Get to know the seller

Seller avatar
dennismuthoni1 kenyatta university
Follow You need to be logged in order to follow users or courses
Sold
-
Member since
1 year
Number of followers
0
Documents
182
Last sold
-
bart general merchadise and trading surpport services

key; global comprehensive research ,survey, data science, ecommerce and e-trade, aim enhancements of life's through transformative networking. Objective fulfill your desire.

0.0

0 reviews

5
0
4
0
3
0
2
0
1
0

Recently viewed by you

Why students choose Stuvia

Created by fellow students, verified by reviews

Quality you can trust: written by students who passed their tests and reviewed by others who've used these notes.

Didn't get what you expected? Choose another document

No worries! You can instantly pick a different document that better fits what you're looking for.

Pay as you like, start learning right away

No subscription, no commitments. Pay the way you're used to via credit card and download your PDF document instantly.

Student with book image

“Bought, downloaded, and aced it. It really can be that simple.”

Alisha Student

Working on your references?

Create accurate citations in APA, MLA and Harvard with our free citation generator.

Working on your references?

Frequently asked questions