11-2 Measuring Electrical Energy
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Transcript 11-2 Measuring Electrical Energy
Measuring Electrical Energy
11.2
Measuring Electrical Energy
Energy:
-the ability to do work
Electrical Energy:
Joule (J):
- energy transferred to an electrical load by
moving electric charges. (symbol is E)
- unit for measuring energy.
Because a joule is so small, energy is also measured in much
larger units such as the watt hour and the kilowatt hour.
Calculating Electrical Energy
Electrical Energy = Voltage x Electrical Current x Time Interval
E=
V
x
I (amps)
x
E = V x I x
change in
t
t
(sec)
Converting Hours to Seconds
1 hour has 60 minutes
1 minute has 60 seconds
60 x 60 = 3600 seconds in one hour
So 1 hour has 3600 seconds (1 x 3600).
2 hours would have 7200 sec (2 x 3600).
Try This
Calculate the energy released from a battery in a flashlight bulb
that was switched on for 4.5 hours, in which the voltage drop was
6V and the current flowing through the bulb was 0.35A.
What’s the important information?
Energy (E)= ? joules (J)
Voltage= 6V
Current= 0.35A
Time= 4.5 hours
- Change to seconds:
4.5 hours x 3600 seconds/hour= 16 200 seconds
Calculate the energy released from a battery in a flashlight bulb
that was switched on for 4.5 hours, in which the voltage drop was
6V and the current flowing through the bulb was 0.35A.
E=V x I x
t
E = 6V x 0.35A x 16 200sec
E = 34 020 joules
The energy released from the battery
was 34 020 joules.
The Same Question:
Finding the Answer in Watt Hours
Calculate the energy released from a battery in a flashlight bulb that
was switched on for 4.5 hours, in which the voltage drop was 6V and
the current flowing through the bulb was 0.35A.
34 200 Joules is a large number.
To make it more practical we can find the answer in Watt Hours (W•h)
E=V x I x
t
E= 6V x 0.35A x 4.5h
E= 9.45 W∙h