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Power And
Horsepower
Defining Power in
Physics
by Andrew Zimmerman
Jones
Power is increased if
work is done faster or energy is transferred in less time.
Calculating
Power
The equation for power is
P = W/t
· P
stands for power (in watts)
· W
stands for the amount of work done (in Joules) or energy expended (in Joules)
· t
stands for the amount of time (in seconds)
In calculus terms, power
is the derivative of work with respect to time. If work is done
faster, power is higher. If work is done slower, power is smaller.
Since work is force times
displacement (W=F*d), and velocity is
displacement over time (v=d/t), power equals force times velocity: P = F*v.
More power is seen when the system is both strong in force and fast in velocity.
Units
of Power
Power is measured in
energy (joules) divided by time.
The SI unit of power is
the watt (W) or joule per second (J/s).
Power is a scalar
quantity, it has no direction.
Horsepower is often used
to describe the power delivered by a machine.
Horsepower is
a unit of power in the British system of measurement. It is the power required
to lift 550 pounds by one foot in one second and is about 746 watts.
The watt is often seen in
relation to light bulbs.
In this power rating, it
is the rate at which the bulb converts electrical energy into light and heat. A
bulb with a higher wattage will use more electricity per unit of time.
If you know the power of
a system, you can find the amount of work that will be produced, as W = Pt.
If a bulb has a power
rating of 50 watts, it will produce 50 joules per second. In an hour (3600
seconds) it will produce 180,000 joules.
Work
and Power
When you walk a mile,
your motive force is displacing your body, which is measured as the work is
done.
When you run the same
mile, you are doing the same amount of work but in less time. The runner has a
higher power rating than the walker, putting out more watts.
A car with 80 horsepower
can produce faster acceleration than a car with 40 horsepower. In the end, both
cars are going 60 miles per hour, but the 80-hp engine can reach that speed
faster.
In the race between the
tortoise and the hare, the hare had more power and accelerated faster, but the
tortoise did the same work and covered the same distance in a much longer time.
The tortoise showed less power.
Average
Power
When discussing power,
people are usually referring to average power, Pavg.
It is the amount of work
done in a period of time (ΔW/Δt) or the amount of energy transferred in a
period of time (ΔE/Δt).
Instantaneous
Power
What is the power at a
specific time? When the unit of time approaches zero, calculus is
needed to derive an answer, but it is approximated by force times speed.
Andrew Zimmerman Jones
Introduction
Academic researcher, educator,
and writer with 23 years of experience in physical sciences
Works at Indiana Department of
Education as senior assessment specialist in mathematics
Co-author of String Theory For Dummies
Member of the National Association of Science Writers
Experience
Andrew Zimmerman Jones is a
former writer for ThoughtCo who contributed nearly 200 articles for more
than 10 years. His topics ranged from the definition of energy to vector
mathematics. Andrew is a dedicated educator; and he uses
his background in the physical sciences, educational assessment, writing,
and communications to advance that mission.
Andrew is co-author of String Theory For Dummies, which discusses the basic
concepts of this controversial approach. String theory tries
to explain certain phenomena that are not currently explainable under the
standard quantum physics model.
Since 2018, Andrew has worked
at the Indiana Department of Education as a senior assessment specialist in
mathematics; prior to which he served as a senior assessment editor at
CTB/McGraw Hill for 10 years. In addition, Andrew was a researcher
at Indiana University's Cyclotron Facility. He is a member of the National Association of Science Writers.
Education
Andrew Zimmerman Jones has
a Master of Science (M.S.) in Mathematics Education from Indiana
University–Purdue, Indianapolis, Ind.; and a Bachelor of Arts
(B.A.) in Physics from Wabash College, Crawfordsville, Ind.
Awards and Publications
String Theory For Dummies (Wiley–For Dummies Series,
2009)
Graduated magna cum laude (Wabash
College, 1999)
Harold Q. Fuller Prize in
Physics (Wabash College, 1998)
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