Lesson 2 Building Blocks of Electricity PDF

Summary

This document covers the fundamental concepts of electricity, including current, voltage, and resistance. It explains the definitions and units of these concepts, along with examples and diagrams. The document also discusses how factors like material, cross-sectional area, and temperature can affect resistance.

Full Transcript

BUILDING BLOCKS TO
MANIPULATE ELECTRICITY
(CURRENT, VOLTAGE, RESISTANCE)
Current
Current (I)
◻ The rate at which electrons flow past a point in a
complete electrical circuit per second
◻ Ampere - Unit of measurement for current
◻ 1 Ampere = 1 Coulomb/ 1 second
? where: 1 Coulomb is 6.24 x 1018 electrons
◻ Andre-Marie Ampere
? French physicist and mathematician
? One of the founders of the science
of classical electromagnetism
Two conventions for current flow
◻ Electron Current
? Flow of electrons from
low to high potential
? (Negative to Positive)
◻ Conventional Current
? Benjamin Franklin, an
American scientist,
theorized that the
positive charge flows
from high to low
potentials
? (Positive to Negative)
Voltage
Electric Potential Energy
◻ Stored energy of a circuit
◻ Describes how much stored energy a charge has
which can do work and become kinetic when set
into motion by an electrostatic force
◻ Measured in units of Joules (J), which is equal to
the amount of energy transferred to an object
when a force of 1 Newton is applied to that object
over a distance of 1 meter. Therefore, 1J = 1N*1m
Electric Potential
◻ The amount of electric potential energy divided by
the amount of charge at any point in the electric
field
◻ Comes in units of Joules per Coulomb (J/C) which
is defined as a volt (V). Therefore, 1V=1J/1C
◻ Example: 10 Volts means that one Coulomb of
charge at the higher potential end can do 10 Joules
of work on its way down to the lower potential
end
Voltage (V)
◻ Also called Potential Difference, Potential, EMF
◻ Electrical pressure
◻ Has potential to do work
◻ Difference in charge between two points
◻ The measure of the push on each electron which
makes the electron move
◻ Alessandro Volta
? Italian Physicist
? Invented the first chemical battery
Voltage
◻ Example:
? In 1.5V battery, if 1 Coulomb of charge came out of
one side, it could do 1.5 Joules of work before re-
entering the other side of the battery.
? If battery connected to a light bulb, each Coulomb
that came out of the top of the battery and went
through the light bulb would give off 1.5J of light and
heat before it re-entered on the other side.
Resistance
Resistance
◻ Opposition to current flow
◻ Acts to oppose motion and generate heat
◻ Limits the flow of electrons through a circuit
◻ Materials with tendency to resist the flow of
charge
◻ Unit of measure is Ohm (Ω)
◻ The resistance between two points where 1V of
applied potential energy will push 1A of current.
Therefore, 1Ω = 1V/1A
Factors that determine resistance
◻ The material itself
? Silver > copper > aluminum
◻ Cross-sectional area
? The end or tip of the wire you cut
? Small cross-sectional area, higher resistance
? Large cross-sectional area, lower resistance
◻ Length
? Longer conductor, higher resistance
◻ Temperature
? Temperature increases, higher resistance
? Cool wire, lower resistance
Georg Ohm
◻ German physicist and
mathematician
◻ In 1825,
experimented with
early chemical
batteries and
thermocouples to
produce voltages
◻ Determined Voltage
and Current were
proportional
RESISTOR
Resistor
◻ A passive component
since it only consumes Schematic Symbol
power and can’t American- International-
generate it style style

◻ A resistor is an
electrical component
that limits or
regulates the flow of
electrical current in an
electronic circuit.
Types of Resistors
◻ Through-hole (PTH)
? Come with long pliable leads which can
be stuck into a breadboard or
hand-soldered into PCB

◻ Surface-mount
? Tiny black rectangles, terminated on either side with even
smaller, shiny, silver, conductive edges
? Sit on top of PCBs, soldered in place by a robot and sent
through an oven where solder melts
? Advantages: mass circuit board protection, space
Decoding Resistor Markings
◻ 1st and 2nd bands
indicate the two most
significant digits
◻ 3rd band is the weight
which multiplies the
two significant digits
by the power of 10
◻ 4th band indicates the
tolerance
Decoding Resistor Markings
Color Digit Value Multiplier Multiplied out Tolerance
Black 0 100 1
Brown 1 101 10
Red 2 102 100
Orange 3 103 1000
Yellow 4 104 10000
Green 5 105 100000
Blue 6 106 1000000
Violet 7 107 10000000
Gray 8 108 100000000
White 9 109 1000000000
Gold + 5%
Silver + 10%
Example
Exercise
Prefixes
Number Prefix Symbol Scientific Notation
1,000,000,000,000 Tera T 1x1012
1,000,000,000 Giga G 1x109
1,000,000 Mega M 1x106
1,000 Kilo k 1x103
100 Hecto h 1x102
10 Deka dk 1x101.1 Deci d 1x10-1.01 Centi c 1x10-2.001 Milli m 1x10-3.000,001 Micro µ 1x10-6.000,000,001 Nano n 1x10-9.000,000,000,001 Pico p 1x10-12
Exercises
1.)

2.) Blue, Red, Brown, Gold 3.) Green, Violet, Black, Gold

4.) Orange, Red, Yellow, Gold 5.) Red, Green, Blue, Gold
Exercises
1.) 30 Ω +5% 2.) 120 Ω +5%

3.) 32 kΩ +5% 4.) 6 MΩ +5%