An electromagnetic wave can travel thorugh a vacuum. The electromagnetic wave can take the form of a radio wave, light, X-rays or gamma rays. This is a contrast to the mechanical waves we know, like waves on water, sound, and seismic waves, to name some.
Mechanical waves.
Electromagnetic waves.
Accuracy and precision From Wikipedia, the free encyclopedia
It has been suggested that this article or section be merged into precision and recall. (Discuss) Proposed since June 2012."Accuracy" redirects here. For the song by The Cure, see Three Imaginary Boys.
In the fields of science, engineering, industry and statistics, the accuracy[1] of a measurement system is the degree of closeness of measurements of a quantity to that quantity's actual (true)value. The precision[1] of a measurement system, also called reproducibility or repeatability, is the degree to which repeated measurements under unchanged conditions show the sameresults.[2] Although the two words reproducibility and repeatability can be synonymous in colloquial use, they are deliberately contrasted in the context of the scientific method.
Accuracy indicates proximity of measurement results to the true value, precision to the repeatability or reproducibility of the measurement
A measurement system can be accurate but not precise, precise but not accurate, neither, or both. For example, if an experimentcontains a systematic error, then increasing the sample size generally increases precision but does not improve accuracy. The result would be a consistent yet inaccurate string of results from the flawed experiment. Eliminating the systematic error improves accuracy but does not change precision.
A measurement system is designated valid if it is both accurate and precise. Related terms include bias (non-random or directed effects caused by a factor or factors unrelated to the independent variable) and error(random variability).
The terminology is also applied to indirect measurements-that is, values obtained by a computational procedure from observed data.
In addition to accuracy and precision, measurements may also have a measurement resolution, which is the smallest change in the underlying physical quantity that produces a response in the measurement.
In the case of full reproducibility, such as when rounding a number to a representable floating point number, the word precision has a meaning not related to reproducibility. For example, in the IEEE 754-2008 standard it means the number of bits in the significand, so it is used as a measure for the relative accuracy with which an arbitrary number can be represented.
Contents[hide]Light, microwaves radar, heat radiation and all other electromagnetic waves cans are waves that can move through a vacuum because light does not need a medium to travel through. Recently gravity waves have been detected, the transmission to Earth required that they pass through the vacuum o space.
Waves like sound waves require a medium (Matter... Ex. air or water) To travel through. Light waves, gravity waves, x-rays, heat, and radio waves are all EM (electromagnetic) waves, and can in a vacuum.
Sound waves cannot travel through a vacuum.
Electromagnetic waves.
Electromagnetic waves.
electromagnet wave
Yes, except vacuum. Only Electromagnetic waves can travel through vacuum.
Yes. Electromagnetic waves (including light as a special case) are, in fact, the only type of wave which will travel through a vacuum.
This depends a lot on the type of waves you're talking about. Sound waves, for example, can travel through water, solid, and air mediums, but not through a vacuum. Electromagnetic waves, however, can travel in a vacuum.
Light spectrum is part of the electromagnetic radiation spectrum. Electromagnetic waves travel better and faster (light speed in vacuum) in vacuum.
Sound is a mechanical wave and must travel through a medium, such as air, water, and solids. Sound waves cannot travel through a vacuum.
Yes, except vacuum. Only Electromagnetic waves can travel through vacuum.
vacuum
Yes. Electromagnetic waves (including light as a special case) are, in fact, the only type of wave which will travel through a vacuum.
This depends a lot on the type of waves you're talking about. Sound waves, for example, can travel through water, solid, and air mediums, but not through a vacuum. Electromagnetic waves, however, can travel in a vacuum.
Light spectrum is part of the electromagnetic radiation spectrum. Electromagnetic waves travel better and faster (light speed in vacuum) in vacuum.
Sound is a mechanical wave and must travel through a medium, such as air, water, and solids. Sound waves cannot travel through a vacuum.
Since an earthquake or seismic wave is a pressure or force wave (like sound waves), it requires a material in which to propagate. So, no earthquake waves can travel through a vacuum.
They use radio waves which are a type of electromagnetic waves. Electromagnetic waves can travel through a vacuum Ligth is a type of electromagnetic wave and that travels through space from the sun and the stars.
yes, they are also a type of electromagnetic waves. any EM wave can travel in space as they can pass through vacuum.
While electromagnetic waves can travel though the vacuum of space, we know that mechanical waves like sound or seismic waves cannot travel except through a physical medium.
no
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