3/6/2016
SNC1P
PHYSICS
ELECTRICAL APPLICATIONS
L Ohm’s Law
(P.518)
Relating Current, Voltage, & Resistance
In 1827, Georg Ohm used a thermocouple (see
diagram to right) to discover the relationship
between potential difference (V), current (I),
and resistance (R).
He described the
relationship mathematically and today it is
known as Ohm’s Law.
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1PPHYS - Ohm's Law
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Activity: Ohm’s Law (1PPHYS-ASG5)
INSTRUCTIONS
A. Read the activity “1PPHYS - ASG5 (Ohm’s Law)”.
B. Follow the instructions given (i.e. method 1 to 7).
C. Answer the questions given (i.e. analysis 1 to 4).
D. Submit a formal lab report using the QHMMORCA format (omit the
hypothesis).
NOTE!
• Use PhET – Circuit Construction Kit (DC only).
• Right-click on the battery/light bulb in order to change their values.
• Use the voltmeter and non-contact ammeter (under “Tools”) to
measure the potential difference (V) and current (I).
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1PPHYS - Ohm's Law
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1
3/6/2016
Relating Current, Voltage, & Resistance
As you discovered (or should have) the
relationship between potential difference (V),
current (I), and resistance (R), known as
Ohm’s law, is given by the following
mathematical statement:
R=
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V
or V = IR
I
1PPHYS - Ohm's Law
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Relating Current, Voltage, & Resistance
NOTE!
Ohm’s law only applies to certain types of
materials. For these materials, when you
plot a graph of the voltage versus the
current, you get a straight-line or linear
relationship. The slope of the straight
line represents the resistance of the
material. And since the slope of the
straight line remains constant so too
does the resistance. As such, we usually
refer to these materials as “ohmic”
materials because they obey Ohm’s law.
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1PPHYS - Ohm's Law
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Relating Current, Voltage, & Resistance
PRACTICE
1. If the graph for an “ohmic” material
is linear, what type of graph would
you expect for a “non-ohmic”
material? Explain your answer.
a non-linear or curved graph since
the resistance of the material
changes as the voltage increases (i.e.
light bulbs, stove elements, …)
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1PPHYS - Ohm's Law
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2
3/6/2016
Relating Current, Voltage, & Resistance
PRACTICE
2. Which of the following graphs shows a load with a greater resistance?
Explain your answer.
(b) since it is steeper (slope of graph = resistance)
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1PPHYS - Ohm's Law
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Ohm’s Law
OHM’S LAW
as long as the temperature stays constant
V
V = IR
where V
I
R
is the potential difference (V)
is the current (A)
is the resistance (S)
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I
R
V=IR I=V/R R=V/I
1PPHYS - Ohm's Law
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1PPHYS - Ohm's Law
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Using Ohm’s Law
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Using Ohm’s Law
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1PPHYS - Ohm's Law
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1PPHYS - Ohm's Law
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Using Ohm’s Law
March 6, 2016
U Check Your Learning
1. A resistor is connected to a 36 V power supply. An ammeter measures
a current of 2.0 A going through it. Determine the resistance of the
resistor.
R = 18 S
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1PPHYS - Ohm's Law
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4
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U Check Your Learning
2. A laptop computer adapter has a voltage of 18 V and a resistance of
4.0 S. The adapter gets warm when operating. Determine the current
going through the adapter.
I = 4.5 A
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1PPHYS - Ohm's Law
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U Check Your Learning
3. Typical household circuits can carry a maximum current of 15 A. If a
wire has a resistance of 8.0 S, determine the voltage across the energy
source.
V = 120 V
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1PPHYS - Ohm's Law
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U Check Your Learning
WIKI (PHYSICS)
O.... 1PPHYS - QUIZ2 (Electric Circuits)
REMEMBER!
Be sure to check, correct, and total your quiz before handing it in.
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1PPHYS - Ohm's Law
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