Power (physics) - Wikipedia
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Power | |
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Common symbols | P |
SI unit | watt (W) |
In SI base units | kg⋅m2⋅s−3 |
Derivations fromother quantities |
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Classical mechanics |
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Power is the amount of energy transferred or converted per unit time. In the International System of Units, the unit of power is the watt, equal to one joule per second. Power is a scalar quantity.
Specifying power in particular systems may require attention to other quantities; for example, the power involved in moving a ground vehicle is the product of the aerodynamic drag plus traction force on the wheels, and the velocity of the vehicle. The output power of a motor is the product of the torque that the motor generates and the angular velocity of its output shaft. Likewise, the power dissipated in an electrical element of a circuit is the product of the current flowing through the element and of the voltage across the element.[1][2]
Definition
[edit]Power is the rate with respect to time at which work is done; it is the time derivative of work: where P is power, W is work, and t is time.
We will now show that the mechanical power generated by a force F on a body moving at the velocity v can be expressed as the product:
If a constant force F is applied throughout a distance x, the work done is defined as . In this case, power can be written as:
If instead the force is variable over a three-dimensional curve C, then the work is expressed in terms of the line integral:
From the fundamental theorem of calculus, we know that Hence the formula is valid for any general situation.
In older works, power is sometimes called activity.[3][4][5]
Units
[edit]The dimension of power is energy divided by time. In the International System of Units (SI), the unit of power is the watt (W), which is equal to one joule per second. Other common and traditional measures are horsepower (hp), comparing to the power of a horse; one mechanical horsepower equals about 745.7 watts. Other units of power include ergs per second (erg/s), foot-pounds per minute, dBm, a logarithmic measure relative to a reference of 1 milliwatt, calories per hour, BTU per hour (BTU/h), and tons of refrigeration.
Average power and instantaneous power
[edit]As a simple example, burning one kilogram of coal releases more energy than detonating a kilogram of TNT,[6] but because the TNT reaction releases energy more quickly, it delivers more power than the coal. If ΔW is the amount of work performed during a period of time of duration Δt, the average power Pavg over that period is given by the formula It is the average amount of work done or energy converted per unit of time. Average power is often called "power" when the context makes it clear.
Instantaneous power is the limiting value of the average power as the time interval Δt approaches zero.
When power P is constant, the amount of work performed in time period t can be calculated as
In the context of energy conversion, it is more customary to use the symbol E rather than W.
Mechanical power
[edit]Power in mechanical systems is the combination of forces and movement. In particular, power is the product of a force on an object and the object's velocity, or the product of a torque on a shaft and the shaft's angular velocity.
Mechanical power is also described as the time derivative of work. In mechanics, the work done by a force F on an object that travels along a curve C is given by the line integral: where x defines the path C and v is the velocity along this path.
If the force F is derivable from a potential (conservative), then applying the gradient theorem (and remembering that force is the negative of the gradient of the potential energy) yields: where A and B are the beginning and end of the path along which the work was done.
The power at any point along the curve C is the time derivative:
In one dimension, this can be simplified to:
In rotational systems, power is the product of the torque τ and angular velocity ω, where ω is angular frequency, measured in radians per second. The represents scalar product.
In fluid power systems such as hydraulic actuators, power is given by where p is pressure in pascals or N/m2, and Q is volumetric flow rate in m3/s in SI units.
Mechanical advantage
[edit]If a mechanical system has no losses, then the input power must equal the output power. This provides a simple formula for the mechanical advantage of the system.
Let the input power to a device be a force FA acting on a point that moves with velocity vA and the output power be a force FB acts on a point that moves with velocity vB. If there are no losses in the system, then and the mechanical advantage of the system (output force per input force) is given by
The similar relationship is obtained for rotating systems, where TA and ωA are the torque and angular velocity of the input and TB and ωB are the torque and angular velocity of the output. If there are no losses in the system, then which yields the mechanical advantage
These relations are important because they define the maximum performance of a device in terms of velocity ratios determined by its physical dimensions. See for example gear ratios.
Electrical power
[edit] Main article: Electric powerThe instantaneous electrical power P delivered to a component is given by where
- is the instantaneous power, measured in watts (joules per second),
- is the potential difference (or voltage drop) across the component, measured in volts, and
- is the current through it, measured in amperes.
If the component is a resistor with time-invariant voltage to current ratio, then: where is the electrical resistance, measured in ohms.
Peak power and duty cycle
[edit]In the case of a periodic signal of period , like a train of identical pulses, the instantaneous power is also a periodic function of period . The peak power is simply defined by:
The peak power is not always readily measurable, however, and the measurement of the average power is more commonly performed by an instrument. If one defines the energy per pulse as then the average power is
One may define the pulse length such that so that the ratios are equal. These ratios are called the duty cycle of the pulse train.
Radiant power
[edit]Power is related to intensity at a radius ; the power emitted by a source can be written as:[citation needed]
See also
[edit]- Simple machines
- Orders of magnitude (power)
- Pulsed power
- Intensity – in the radiative sense, power per area
- Power gain – for linear, two-port networks
- Power density
- Signal strength
- Sound power
References
[edit] Wikimedia Commons has media related to Power (physics). Wikiquote has quotations related to Power (physics).- ^ David Halliday; Robert Resnick (1974). "6. Power". Fundamentals of Physics.
- ^ Chapter 13, § 3, pp 13-2,3 The Feynman Lectures on Physics Volume I, 1963
- ^ Fowle, Frederick E., ed. (1921). Smithsonian Physical Tables (7th revised ed.). Washington, D.C.: Smithsonian Institution. OCLC 1142734534. Archived from the original on 23 April 2020. Power or Activity is the time rate of doing work, or if W represents work and P power, P = dw/dt. (p. xxviii) ... ACTIVITY. Power or rate of doing work; unit, the watt. (p. 435)
- ^ Heron, C. A. (1906). "Electrical Calculations for Rallway Motors". Purdue Eng. Rev. (2): 77–93. Archived from the original on 23 April 2020. Retrieved 23 April 2020. The activity of a motor is the work done per second, ... Where the joule is employed as the unit of work, the international unit of activity is the joule-per-second, or, as it is commonly called, the watt. (p. 78)
- ^ "Societies and Academies". Nature. 66 (1700): 118–120. 1902. Bibcode:1902Natur..66R.118.. doi:10.1038/066118b0. If the watt is assumed as unit of activity...
- ^ Burning coal produces around 15-30 megajoules per kilogram, while detonating TNT produces about 4.7 megajoules per kilogram. For the coal value, see Fisher, Juliya (2003). "Energy Density of Coal". The Physics Factbook. Retrieved 30 May 2011. For the TNT value, see the article TNT equivalent. Neither value includes the weight of oxygen from the air used during combustion.
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