AskDefine | Define weighty

The Collaborative Dictionary

Weighty \Weight"y\, a. [Compar. Weightier; superl. Weightiest.] [1913 Webster]
Having weight; heavy; ponderous; as, a weighty body. [1913 Webster]
Adapted to turn the balance in the mind, or to convince; important; forcible; serious; momentous. "For sundry weighty reasons." --Shak. [1913 Webster] Let me have your advice in a weighty affair. --Swift. [1913 Webster]
Rigorous; severe; afflictive. [R.] "Attend our weightier judgment." --Shak. [1913 Webster] Syn: Heavy; ponderous; burdensome; onerous; forcible; momentous; efficacious; impressive; cogent. [1913 Webster]

Word Net

weighty adj
1 having relatively great weight; heavy; "a weighty load"; "a weighty package" [ant: weightless]
2 of great gravity or crucial import; requiring serious thought; "grave responsibilities"; "faced a grave decision in a time of crisis"; "a grievous fault"; "heavy matters of state"; "the weighty matters to be discussed at the peace conference" [syn: grave, grievous, heavy]
3 weighing heavily on the spirit; causing anxiety or worry; "weighty problems"
4 excessively fat; "a weighty man" [syn: corpulent, obese, rotund]
5 powerfully persuasive; "a cogent argument"; "a telling presentation"; "a weighty argument" [syn: cogent, telling] [also: weightiest, weightier]

Moby Thesaurus

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English

Etymology

Pronunciation

Adjective

weighty
  1. Having weight; heavy; ponderous; as, a weighty body.
  2. Adapted to turn the balance in the mind, or to convince; important; forcible; serious; momentous.
  3. Rigorous; severe; afflictive.
In the physical sciences, weight is a measurement of the gravitational force acting on an object.

Weight and mass

In modern scientific usage, weight and mass are fundamentally different quantities: mass is an intrinsic property of matter, whereas weight is a force that results from the action of gravity on matter: it measures how strongly gravity pulls on that matter.
However, the recognition of this difference is, historically, a relatively recent development and in many everyday situations the word "weight" continues to be used when "mass" is meant. For example, we say that an object "weighs one kilogram", even though the kilogram is a unit of mass.
The distinction between mass and weight is unimportant for many practical purposes because the strength of gravity is very simliar everywhere on the surface of the Earth. In such a constant gravitational field, the gravitational force exerted on an object (its weight) is directly proportional to its mass. So, if object A weighs, say, 10 times as much as object B, then object A's mass is 10 times that of object B. This means that an object's mass can be measured indirectly by its weight (for conversion formulas see below). For example, when we buy a bag of sugar we can measure its weight (how hard it presses down on the scales) and be sure that this will give a good indication of the quantity that we are actually interested in, which is the mass of sugar in the bag. Nevertheless, slight variations in the Earth's gravitational field do exist (see Earth's gravity). These alter the relationship between weight and mass, and must be taken into account in high precision weight measurements that are intended to indirectly measure mass.
The use of "weight" for "mass" also persists in some scientific terminology – for example, in the chemical terms "atomic weight", "molecular weight", and "formula weight", rather than the preferred "atomic mass" etc.
The difference between mass and force becomes obvious when:
  • objects are compared in different gravitational fields, such as away from the Earth's surface. For example, on the surface of the Moon, gravity is only about one-sixth as strong as on the surface of the Earth. A one-kilogram mass is still a one-kilogram mass (as mass is an intrinsic property of the object) but the downward force due to gravity is only one-sixth of what the object would experience on Earth.
  • locating the center of gravity of an object (although if the gravitation field is uniform, the center of gravity will coincide with the center of mass).
  • an object is submersed in a fluid (for instance, a brick weighs less when placed in water, and helium balloon in the atmosphere appears to have negative weight).

Units of weight

Systems of units of weight (force) and mass have a tangled history, partly because the distinction was not properly understood when many of the units first came into use.

SI units

In most modern scientific work, physical quantities are measured in SI units. The SI unit of mass (and hence weight in some everyday senses) is the kilogram. The SI unit of force (and hence weight in the mechanics sense) is the newton (N) – which can also be expressed in SI base units as kg·m/s² (kilograms times metres per second squared).
The gravitational force exerted on an object is proportional to the mass of the object, so it is reasonable to think of the strength of gravity as measured in terms of force per unit mass, that is, newtons per kilogram (N/kg). However, the unit N/kg resolves to m/s²; (metres per second per second), which is the SI unit of acceleration, and in practice gravitational strength is usually quoted as an acceleration.

The pound and other non-SI units

In United States customary units, the pound can be either a unit of force or a unit of mass. Related units used in some distinct, separate subsystems of units include the poundal and the slug. The poundal is defined as the force necessary to accelerate a one-pound object at 1 ft/s², and is equivalent to about 1/32 of a pound (force). The slug is defined as the amount of mass that accelerates at 1 ft/s² when a pound of force is exerted on it, and is equivalent to about 32 pounds (mass).
The kilogram-force is a non-SI unit of force, defined as the force exerted by a one-kilogram mass in standard Earth gravity (equal to 9.80665 newtons exactly). The dyne is the cgs unit of force and is not a part of SI, while weights measured in the cgs unit of mass, the gram, remain a part of SI.

Conversion between weight (force) and mass

To convert between weight (force) and mass we use Newton's second law, F = ma (force = mass × acceleration). Here, F is the force (weight) due to gravity, m is the mass of the object in question, and a is the acceleration due to gravity, on Earth approximately 9.8 m/s² or 32.2 ft/s². In this context the same equation is often written as W = mg, with W standing for weight, and g for the acceleration due to gravity.

Sensation of weight

see also apparent weight The weight force that we actually sense is not the downward force of gravity, but the normal force (an upward contact force) exerted by the surface we stand on, which opposes gravity and prevents us falling to the center of the Earth. This normal force, called the apparent weight, is the one that is measured by a spring scale.
For a body supported in a stationary position, the normal force balances the earth's gravitational force, and so apparent weight has the same magnitude as actual weight. (Technically, things are slightly more complicated. For example, an object immersed in water weighs less, according to a spring scale, than the same object in air; this is due to buoyancy, which opposes the weight force and therefore generates a smaller normal. These and other factors are explained further under apparent weight.)
If there is no contact with any surface to provide such an opposing force then there is no sensation of weight (no apparent weight). This happens in free-fall, as experienced by sky-divers (until they approach terminal velocity) and astronauts in orbit, who feel "weightless" even though their bodies are still subject to the force of gravity: they're just no longer resisting it. The experience of having no apparent weight is also known as microgravity.
A degree of reduction of apparent weight occurs, for example, in elevators. In an elevator, a spring scale will register a decrease in a person's (apparent) weight as the elevator starts to accelerate downwards. This is because the opposing force of the elevator's floor decreases as it accelerates away underneath one's feet.

Measuring weight

Main article: Weighing scale
Weight is commonly measured using one of two methods. A spring scale or hydraulic or pneumatic scale measures weight force (strictly apparent weight force) directly. If the intention is to measure mass rather than weight, then this force must be converted to mass. As explained above, this calculation depends on the strength of gravity. Household and other low precision scales that are calibrated in units of mass (such as kilograms) assume roughly that standard gravity will apply. However, although nearly constant, the apparent or actual strength of gravity does in fact vary very slightly in different places on the earth (see standard gravity, physical geodesy, gravity anomaly and gravity). This means that same object (the same mass) will exert a slightly different weight force in different places. High precision spring scales intended to measure mass must therefore be calibrated specifically according their location on earth.
Mass may also be measured with a balance, which compares the item in question to others of known mass. This comparison remains valid whatever the local strength of gravity. If weight force, rather than mass, is required, then this can be calculated by multiplying mass by the acceleration due to gravity – either standard gravity (for everyday work) or the precise local gravity (for precision work).
Gross weight is a term that generally is found in commerce or trade applications, and refers to the gross or total weight of a product and its packaging. Conversely, net weight refers to the intrinsic weight of the product itself, discounting the weight of packaging or other materials.

Relative weights on the Earth, other planets and the Moon

The table below shows comparative gravitational accelerations at the surface of the Sun, the Earth's moon, each of the planets in the solar system, and Pluto. The “surface” is taken to mean the cloud tops of the gas giants (Jupiter, Saturn, Uranus and Neptune). For the Sun, the surface is taken to mean the photosphere. The values in the table have not been de-rated for the centrifugal effect of planet rotation (and cloud-top wind speeds for the gas giants) and therefore, generally speaking, are similar to the actual gravity that would be experienced near the poles.

References

weighty in Afrikaans: Gewig
weighty in Arabic: وزن
weighty in Asturian: Pesu
weighty in Bengali: ওজন (ভার)
weighty in Min Nan: Tāng-liōng
weighty in Belarusian: Вага
weighty in Bosnian: Težina
weighty in Bulgarian: Тегло
weighty in Catalan: Pes
weighty in Czech: Váha
weighty in Danish: Vægt (fysik)
weighty in German: Gewicht
weighty in Estonian: Kaal
weighty in Spanish: Peso
weighty in Esperanto: Pezo
weighty in Basque: Pisu
weighty in Persian: وزن
weighty in French: Poids
weighty in Galician: Peso
weighty in Hindi: भार
weighty in Korean: 무게
weighty in Croatian: Težina
weighty in Ido: Pezo
weighty in Indonesian: Berat
weighty in Icelandic: Þyngd
weighty in Italian: Forza peso
weighty in Hebrew: משקל (פיזיקה)
weighty in Latvian: Svars
weighty in Lithuanian: Svoris
weighty in Hungarian: Súly
weighty in Macedonian: Тежина
weighty in Malayalam: ഭാരം
weighty in Malay (macrolanguage): Berat
weighty in Dutch: Gewicht
weighty in Japanese: 重さ
weighty in Norwegian: Tyngde
weighty in Polish: Ciężar
weighty in Portuguese: Peso
weighty in Kölsch: Jeweech
weighty in Romanian: Greutate
weighty in Quechua: Llasaq kay
weighty in Russian: Вес
weighty in Sicilian: Pisu
weighty in Simple English: Weight
weighty in Slovak: Gravitačná hmotnosť
weighty in Slovenian: Teža
weighty in Serbian: Тежина
weighty in Finnish: Paino
weighty in Swedish: Tyngd
weighty in Thai: น้ำหนัก
weighty in Vietnamese: Lực hấp dẫn#Tr.E1.BB.8Dng_l.E1.BB.B1c
weighty in Turkish: Ağırlık
weighty in Ukrainian: Вага
weighty in Yiddish: וואג
weighty in Chinese: 重量
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