how many kg in 1 centner?

1. WEIGHT MEASURES:
   1 milligram (mg.)
   1 gram (g) = 1,000 mg.
   1 kilogram (kg). = 1,000 g. = 1,000,000 mg. (1 million)

   1 centner = 100 kg. = 100,000 g. = 100,000,000 mg. (100 million)

   1 ton = 10 centners = 1,000 kg. = 1,000,000 g. = 1,000,000,000 mg. (1 billion)

2. One hundred kg
3. One hundred kg
4. 1c = 100kg
5. The question of the weight of a centner of the AiF. Europe has puzzled the teacher of mathematics Martin GERLACH: It is absolutely correct that a centner means a hundred measures. But in Germany, in the old days, it was not a kilogram that was traditionally taken as a measure of weight, but a pound, which corresponds to approximately 500 grams. That is 100 pounds 50 kilograms. This measure of weight in the old days was used by people employed in agriculture: for example, a hundredweight of potatoes, a full sack, 50 kg. My grandfather still counts in centners, but in modern calculations this measure no longer appears. Therefore, it is still included in the school curriculum, but we do not devote much time to it. Moreover, we still have to explain that even in different parts of Germany the centner was different: in Bavaria, for example, 56 kg; in Braunschweig 46.77 kg; in Saxony 51.4 kg. Now in Germany the average value is 50 kg. And 100 kilograms of centners weigh in Russia, Ukraine, Switzerland, Austria, Italy. So in the dispute, both are indeed right.
6. 1 centner = 100kg

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1 kilogram [kg] = 0.01 centner (metric) [q]

Initial value

Converted value

kilogram grams of exagrams petagrams teragrams gigagrams megagrams hectograms decagrams decigrams centigrams milligrams micrograms nanograms picograms femtograms attograms daltons, atomic mass unit kilogram-force sq. sec / meter kilopound kilopound (kip) slug lbf sq. sec / foot pound troy pound ounce troy ounce metric ounce short ton long (imperial) ton assay ton (US) assay ton (imperial) ton (metric) kilotone (metric) centner (metric) centner (metric) centner American centner British quarter (US) quarter (brit.) stone (USA) stone (brit.) ton pennyweight scrupul carat grand gamma talent (dr. Israel) mina (dr. Israel) shekel (dr. Israel) bekan (dr. Israel) gera (dr. Israel) talent (Ancient Greece) mina (Ancient Greece) tetradrachm (Ancient Greece) didrachm (Ancient Greece) drachma (Ancient Greece) denarius (Ancient Rome) ass (Ancient Rome) codrant (Ancient Rome) lepton ( Dr. Rome) Planck mass atomic mass unit electron rest mass muon rest mass proton mass neutron mass Earth mass mass of the Sun Berkovets pood Pound lot spool fraction of quintal livre

More about mass

General information

Mass is the property of physical bodies to resist acceleration. Mass, unlike weight, does not change depending on the environment and does not depend on the force of gravity of the planet on which this body is located. Mass m determined using Newton's second law, according to the formula: F = ma, where F is power, and a- acceleration.

Mass and weight

In everyday life, the word "weight" is often used, when they speak of mass. In physics, weight, in contrast to mass, is a force acting on a body due to the attraction between bodies and planets. Weight can also be calculated using Newton's second law: P= mg, where m is mass, and g- acceleration of gravity. This acceleration occurs due to the gravitational force of the planet, near which the body is located, and its magnitude also depends on this force. The acceleration due to gravity on Earth is 9.80665 meters per second, and on the Moon - about six times less - 1.63 meters per second. So, a body weighing one kilogram weighs 9.8 Newtons on the Earth and 1.63 Newtons on the Moon.

Gravitational mass

Gravitational mass shows what gravitational force acts on a body (passive mass) and with what gravitational force a body acts on other bodies (active mass). When increasing active gravitational mass body, its force of attraction also increases. It is this force that governs the movement and position of stars, planets and other astronomical objects in the universe. The ebb and flow are also caused by the gravitational forces of the Earth and the Moon.

With magnification passive gravitational mass the force with which the gravitational fields of other bodies act on this body also increases.

Inert mass

Inertial mass is the property of a body to resist movement. It is due to the fact that the body has mass that a certain force must be applied to move the body from its place or change the direction or speed of its movement. The more inert mass, the more force you need to apply for this. Mass in Newton's second law is precisely inert mass. In terms of magnitude, gravitational and inert masses are equal.

Mass and the theory of relativity

According to the theory of relativity, gravitating mass changes the curvature of the space-time continuum. The greater this mass of a body, the stronger this curvature around this body, therefore, near bodies of large mass, such as stars, the trajectory of light rays is curved. this effect in astronomy is called gravitational lenses. On the contrary, far from large astronomical objects (massive stars or their clusters called galaxies), the movement of light rays is straightforward.

The main postulate of the theory of relativity is the postulate of the finiteness of the speed of propagation of light. Several interesting consequences follow from this. First, one can imagine the existence of objects with such a large mass that the second cosmic speed of such a body will be equal to the speed of light, i.e. no information from this object can get into the outside world. Such space objects in the general theory of relativity are called "black holes" and their existence has been experimentally proven by scientists. Secondly, when an object moves with a near-light speed, its inertial mass increases so much that the local time inside the object slows down in comparison with time. measured by a stationary clock on Earth. This paradox is known as the "twins paradox": one of them is sent into space flight at a near-light speed, the other remains on Earth. Upon returning from a flight twenty years later, it turns out that the twin astronaut is biologically younger than his brother!

Units

Kilogram

In the SI system, mass changes in kilograms. The kilogram is determined based on the exact numerical value of Planck's constant h equal to 6.62607015 × 10⁻³⁴, expressed in J s, which is equal to kg m2 s⁻¹, and the second and meter are determined by the exact values c and Δ ν Cs. The mass of one liter of water can be considered approximately equal to one kilogram. The derivatives of kilogram, gram (1/1000 kilogram), and ton (1000 kilograms) are not SI units, but are widely used.

Electron-volt

Electronvolt is a unit for measuring energy. It is usually used in the theory of relativity, and the energy is calculated by the formula E=mc², where E is energy, m- mass, and c is the speed of light. According to the principle of equivalence of mass and energy, the electron volt is also a unit of mass in the system of natural units, where c is equal to one, which means that mass is equal to energy. Electron volts are mainly used in nuclear and atomic physics.

Atomic mass unit

Atomic mass unit ( a. eat.) is intended for the masses of molecules, atoms, and other particles. One A. e. m is equal to 1/12 of the mass of a carbon nuclide atom, ¹²C. This is approximately 1.66 × 10 ⁻²⁷ kilograms.

Slug

Slags are used primarily in the British imperial system of measures in the UK and some other countries. One slug is equal to the mass of a body that accelerates one foot per second per second when a force of one pound-force is applied to it. This is approximately 14.59 kilograms.

Solar mass

Solar mass is a measure of mass used in astronomy to measure stars, planets, and galaxies. One solar mass is equal to the mass of the Sun, that is, 2 × 10³⁰ kilograms. The mass of the Earth is about 333,000 times less.

Carat

Carats measure the mass of precious stones and metals in jewelry. One carat is equal to 200 milligrams. The name and the value itself are associated with the seeds of the carob tree (in English: carob, pronounced "carob"). One carat used to be equal to the weight of the seed of this tree, and buyers carried their seeds with them to check if the sellers of precious metals and stones had cheated them. The weight of a gold coin in ancient Rome was equal to 24 carob seeds, and therefore carats began to be used to denote the amount of gold in an alloy. 24 carats is solid gold, 12 carats is a half-gold alloy, and so on.

Gran

The gran was used as a measure of weight in many countries before the Renaissance. It was based on the weight of grains, mainly barley, and other crops popular at the time. One grain is equal to about 65 milligrams. This is a little over a quarter of a carat. Until carats became widespread, grains were used in jewelry. This measure of weight is used to this day to measure the mass of gunpowder, bullets, arrows, and gold foil in dentistry.

Other units of mass

In countries where the metric system is not adopted, the mass measures of the British imperial system are used. For example, in the UK, USA and Canada, pounds, stones and ounces are widely used. One pound equals 453.6 grams. Stones are mainly used only to measure a person's body weight. One stone is approximately 6.35 kilograms, or exactly 14 pounds. Ounces are mostly used in cooking recipes, especially for small portions. One ounce is 1/16 of a pound, or approximately 28.35 grams. In Canada, which formally converted to metric in the 1970s, many products are sold in rounded imperial packaging, such as one pound or 14 fluid ounces, but have metric weights or volumes. In English, this system is called "soft metric" (eng. soft metric), in contrast to the "rigid metric" system (eng. hard metric), which indicates the rounded weight in metric units on the packaging. This image shows “soft metric” food packaging with metric weight only and volume in both metric and imperial units.

Do you find it difficult to translate a unit of measurement from one language to another? Colleagues are ready to help you. Post a question to TCTerms and you will receive an answer within a few minutes.

How many kg in 1 centner, how many in 1 kg centners?

The question of the school curriculum. One centner contains one hundred kilograms.

1 centner is equal to 100 kilograms.

And accordingly, if we rearrange the units of mass, it turns out that one hundredth of a centner will be contained in one kilogram.

1 kg = 0.01 centner.

A centner is a unit of mass measurement equal to 100 kilograms.

1 q = 100 kg

To convert centners to kilograms, you need to multiply the number of centners by 100

100 q = 100 * 100 = 10,000 kg

To convert kilograms to centners, you need to divide the number of kilograms by 100

1 kg = 1/100 = 0.01 c

To all this, you can add

to convert centners to tons, you need to divide the number of centners by 10

1 q = 1/10 = 0.1 t- in one centner one tenth of a ton

to convert tons to centners, you need to multiply the number of tons by 10

1 t = 1 * 10 = 10 q- ten centners in one ton.

If you remember these actions, then in the future no problems should arise when converting kilograms to centners and vice versa.

Let's remember arithmetic)

One centner is equal to one hundred kilograms (in 1 centner 100 kilograms);

One kilogram is equal to 0.01 centners (0.01 centners in one kilogram);

100 centners contain 10,000 kilograms;

One ton equals ten centners and one thousand kilograms.

Remember, earlier in school notebooks there were measures of weight and a multiplication table on the cover?) Cool tip)

I am at a loss as to how to answer such questions. I'll try to formulate my answers as follows -

1. In 1 centner - 100 kilograms.
2. In 1 kilogram - respectively -0.01 centners.
3. In 100 centners - 10,000 kilograms.

• There is only 100 kilograms in one centner. And in one kilogram - 0.01 centners. It is quite simple to calculate everything, because one centner contains 100 kilograms. Divide one by 100 and get one hundredth or 0.01.

  Let's remember the school.

  A centner is a unit of mass equal to 100 kilograms.

  It follows that in 1 kilogram - 0.01 centner (1/100).

  And to find out how many kilograms are in 100 centners, it is enough to simply multiply the number of centners by 100 and we get 10,000 kilograms.

  in 1 centner 100kg

  in 1 kg 0.01 centner

  in 100 centners 10000kg (ten thousand)

  Word centner comes from the Latin centum, which means hundred.

  Knowing this, we can safely say that

  1 centner = 100 kilograms

  And in 100 centners there will be 10,000 kilograms (100 x 100 = 10,000)

  Although in Germany, for example, it is believed that there are 50 kg per centner, then it turns out that

  1 centner = 50 kg, and 100 centners = 5000 kg.

  The kilogram and centner are units of measure for mass.

  One centner equals 100 kilograms.

  Thus, by not clever calculations, you can calculate how many centners in 1 kg: 1 kg: 100 kg = 0.01 centners.

  Therefore, in 1 kg 0.01 centners.

  One centner is divided into 100 kilograms. Accordingly, it is easy to make calculations and calculate that one kilogram is 0.01 centners.

  Here is the actual calculation of the number of centners in a kilogram: 1: 100 = 0.01

  In 1 centner - 100 kg, in 1 kg - 0.01 centners, in 100 centners - 10,000 kg.

  One centner contains one hundred kilograms (or kilograms). if on the contrary, then in one kilogram there is zero point one hundredth of a centner.

  At school, I loved such calculations-translations with weight, but hectares were difficult for me.

  There are 100 kilograms in 1 centner. To easily remember, you can imagine that it will be two large bags of potatoes. Well, in 1 kg centners will be 1 divided by 100 = 0.01 centners, we divide by 100 because a kilogram is 100 times less than a centner.