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In physics, power (symbol: P) is the amount of work W done per unit of time t. This can be modeled as an energy flow, equivalent to the rate of change of the energy in a system, or the time rate of doing work, as defined by
where
P is power
t is time
The units of power are therefore energy divided by time.
The SI unit of power is the watt, which is equal to one joule per second.
The power consumption of a human is on average roughly 100 watts, ranging from 85 W during sleep to 800 W or more while playing a strenuous sport. Professional cyclists have been measured at 2000 W output for short periods of time.
Non-SI units of power include horsepower (HP), Pferdestärke (PS), cheval vapeur (CV) and foot-pounds per minute. One unit of horsepower is equivalent to 33,000 foot-pounds per minute, or the power required to lift 550 pounds one foot in one second, and is equivalent to about 746 watts. Other units include: dBm, logarithmic measure with 1 milliwatt as reference; kilocalorie per hour (often referred to as Calories per hour)
Main article: Electric power
The instantaneous electrical power P delivered to a component is defined as:
where
P is the instanteous power, measured in watts
V is the potential difference (or voltage drop) across the component, measured in voltThe volt is the SI derived unit for electric potential and voltage (derived from the ampere and watt). It is named in honor of Alessandro Volta, who, in 1800, invented the voltaic pile, the first chemical battery. The volt is defined as the potential diffs
I is the currentIn electricity, current is the rate of flow of charges, usually through a metal wire or some other electrical conductor. Conventional current was defined early in the history of electrical science as a flow of positive charge, although we now know that, i flowing through it, measured in ampereIn physics, the ampere (symbol: A often informally abbreviated to amp is the SI base unit used to measure electrical currents. The present definition, adopted by the 9th CGPM in 1948 is: "one ampere is that constant current which, if maintained in two strs
If the component is a resistorAn ideal resistor is a component with an electrical resistance that remains constant regardless of the applied voltage or current flowing through the device. While "real world" resistors cannot attain this perfect goal, they are designed to present little, then:
or
where
R is the resistanceResistance can mean one of: electrical resistance antibiotic resistance resistance to a disease (see related subject immunology) a political resistance movement geological resistance fluid resistance thermal resistance., measured in ohmThe ohm is the SI derived unit of electrical resistance (derived from the ampere and the watt). Its symbol is the Greek capital letter omega (Ω). The ohm is named for Georg Ohm, a German physicist who discovered the relation between voltage and currs
The average power consumed by a two-terminal electrical device is a function of the root mean square values of the sinusoidal voltage across the terminals and the sinusoidal current passing through the device. That is,
where
P is the power, measured in watts
I is the root mean square value of the sinusoidal alternating current (AC), measured in amperes
U is the root mean square value of the sinusoidal alternating voltage, measured in volts
φ is the phase angle between the voltage and the current sine functions.
The amplitudes of sinusoidal voltages and currents, such as those used almost universally in mains electrical supplies, are normally specified in terms of root mean square values. This makes the above calculation a simple matter of multiplying the two stated numbers together.
This figure can also be called the effective power, as compared to the larger apparent power which is expressed in volt-amperes reactive (VAR) and does not include the term due to the current and voltage being out of phase. For simple domestic appliances, the "cos φ" term (called the power factor) can often be assumed to be unity, and can therefore be omitted from the equation. In this case, the effective and apparent power are assumed to be equal.
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