Satuanpengukuran dibagi menjadi beberapa jenis (such as Konversi Suhu konversi suhu, Konversi Berat and so on) terlihat dari sisi kanan yang kemudian mengarah ke serangkaian kalkulator konversi metrik. Jika anda memiliki saran untuk menambah satuan-satuan baru atau saran tentang cara untuk meningkatkan situs ini silahkan hubungi kami melalui Airvelocity (distance traveled per unit of time) is usually expressed in Linear Feet per Minute (LFM). By multiplying air velocity by the cross section area of a duct, you can determine the air volume flowing past a point in the duct per unit of time. Gramke Kilo. Mengkonversi antara unit (g → kg) atau Lihat tabel konversi. Convert LIVE. mengkonversi antara unit menggunakan converter gratis kami. Gram ke Kilo. Dari Meskipun kami membuat upaya besar memastikan konverter yang seakurat mungkin, kami tidak dapat menjamin bahwa. Sebelum Anda menggunakan salah satu alat konversi atau data Vay Tiền Nhanh. Random converter 1 liter/kilogram [L/kg] = 0,001 meter³/kilogram [m³/kg]Lebih lanjut tentang Volume KhususThe working fluid steam rotates the turbine of this gas-powered power station as it expands through it. Gambaran umumApplicationsTwo-Phase SystemsHeating, Ventilating, and Air Conditioning TechnologySolar Thermal CollectorsHeat Pipe SystemsHow Two-Phase Systems WorkPressure, Temperature, and Specific Volume Specific Volume in Pressure CookersGambaran umumRefrigeration cycle. Step 1. The hot refrigerant, which was compressed by the compressor is cooled by outside air flow and condensed in this heat exchanger of a window air conditionerSpecific volume indicates volume per unit of mass — a property of substances and materials that is often used in thermodynamics. It is the inverse of density. To find a specific volume, we divide the volume by mass. For gases, it can also be found by using pressure, temperature, and molecular mass. While volume per unit of mass is more common, sometimes specific volume may refer to volume per molecular weight. We can usually tell from the context which specific volume is used. The units for the specific volume by mass and specific volume by moles are different, so it is also possible to tell which specific volume is meant by looking at the units. Specific volume per mass is measured in m³/kg, L/kg, or ft³/lb and units derived from those, while molar volume is measured in m³/mol, and units derived from it. In some cases the latter is called molar volume or molar specific we compare solids, liquids, and gases we will note that it is much easier to change density and specific volume for gases. Incidentally, while density is more commonly used when talking about liquids and solids, specific volume is more often used when working with gases. If we talk about systems that have both gas and a liquid within them, it is common to use specific volume when talking about both states of a cycle. Step 2. The cooled refrigerant in the liquid form is routed through the expansion valve and enters the evaporator heat exchanger shown in this picture. The warm room air is blown across the cold evaporator and is cooled thereTwo-Phase SystemsSystems that have within them a substance in two different states of matter liquid and gas, or liquid and solid are known as two-phase systems. A mix of ice and water in a cup is one example. A system that has both liquid and vapor of this liquid in it, for example in a boiler of a gas-powered power station, or in a nuclear reactor, or in an air conditioner is another. We may want to observe how such a system behaves when temperature or pressure changes, in particular — whether the amount of substance in one phase increases or decreases as these parameters change. This is where we would use specific volume. To quantify properties of a two-phase system in general it is also convenient to use specific let us consider some examples of two-phase systems and how they are used in our daily lives and technology. After that, we will discuss the relevance of specific Ventilating, and Air Conditioning TechnologyRefrigeration cycle. Step 3. The gaseous refrigerant from the evaporator enters the compressor, is compressed there to a higher pressure, and then enters the condenser heat exchanger and the refrigeration cycle is repeatedIn many cases heating, ventilating, and air conditioning HVAC installations consist of a two-phase system. When the heating is on, it is sometimes the case that water is heated to produce steam, and the hot steam is then circulated through the pipes of the system to heat the room. Hot water is often used in many systems to carry the heat along the pipes. Some of these HVAC systems use boilers, which are heating devices. The water inside them is heated by burning some fuel, often fossil fuel. Coal is commonly used, and so is natural the air conditioning is in operation the air in the room is cooled by a substance called refrigerant that alternates between a gas and a liquid state. Initially, this substance is cooled as a gas in the heat exchanger called a condenser. When it cools, it condenses, meaning that it becomes a liquid. It is then sent by a compressor through the system to cool the room, and in this process, it evaporates in another heat exchanger called an evaporator and becomes a gas again, as it warms up. It is then returned to the first heat exchanger condenser to repeat the outside unit of a mini-split air conditioner systemChanging from liquid to gas requires much energy. During the cooling process the system absorbs energy from the room to heat the refrigerant, and in the process cools the room. The condenser in the air conditioner cools the gas by releasing the energy and industrial refrigerators work using the same principle. Some of the HVAC systems work as a single unit, and some are a combination of a separate heater and an air thermal collectors are used for heatingSolar Thermal CollectorsThermal collectors within solar panels, in particular the flat plate collectors, work in a somewhat similar fashion as well. Solar energy enters the system through the front panel and heats air or liquid such as water or antifreeze. This thermal heat is used for heating or to provide hot pipes are highly efficient thermal conductors due to very high heat transfer during boiling and condensation of a liquid inside a heat pipeHeat Pipe SystemsIn a heat pipe system, the process is similar to the air conditioner, except that it is not air that is cooled but surfaces made from various solid materials such as metals. The heat of these surfaces vaporizes the liquid in the heat pipe. The rest of the process is similar, with the gas condensing when cooled, and then returning back into the system. Some examples of cooling agents are helium, alcohol, and mercury. These systems are often used in electronic components especially in computers, to cool parts that are subject to rapid or extreme heating. They are also used in space in very extreme Two-Phase Systems WorkIn a two-phase system, there is usually a set of conditions in which both states can coexist within the system. If the properties of a substance are outside of the range of these conditions, then the substance can only be in one state, as we discuss in more detail we work with a two-phase system, it is the change in pressure, not in specific volume, that causes the temperature changes. However, this pressure change also changes the specific volume. In some situations, we have a special case where the pressure and the temperature are constant, but the specific volume is changing. This happens if we have a system with constant pressure, at a temperature that allows two phases of the same substance to co-exist. In this case, once the system reaches this temperature, if it stays constant, the liquid within the system starts turning into gas, and the specific volume increases as a result. Of course in this case the total volume of the system changes as well, so this is only possible if the system is flexible enough to accommodate that. In systems that have a set volume and mass and do not allow the specific volume to change, as we see in the example of a pressure cooker, the process is different. In our system, the increase in specific volume will continue until the liquid evaporates and the system reaches equilibrium design of boilers and steam turbines used in power plants like the gas-powered plant shown in this picture requires a detailed understanding of two-phase flow heat transfer and pressure drop just looked at what happens if we keep the pressure constant. Now let us consider the case when the temperature is constant and we increase the pressure. For each substance, there is a specific range of pressure for which the substance can only exist in a gas state. There is also a range of pressure for which the gas and the liquid state of the substance can exist together in the same system. As we change pressure, the specific volume of the substance also also has a specific value above which the substance cannot coexist as a liquid and a gas in one system. This value for temperature is called the critical temperature, and the value for pressure is called critical pressure. In thermodynamics, the critical temperature and the critical pressure combined are called the critical Temperature, and Specific Volume In thermodynamics pressure, temperature, and specific volume are three values that form a special relationship. It is convenient to use them for describing a thermodynamic system because they are easy to measure. As we have discussed earlier, as long as we work with a single-phase substance, a change in pressure or a change in temperature causes a decrease or an increase in specific volume. It depends on the substance, but for most gases increase in pressure means a decrease in specific volume, as long as we keep the temperature constant. On the other hand, an increase in temperature results in an increase in specific volume if the pressure is constant. This relationship means that if we control the specific volume, we can also control either pressure or temperature. This is the principle used in the pressure a pressure cooker, the boiling point of water increases up to 121 °C 250 °F at the sea level at a pressure of 1 bar or ~15 psi above the existing atmospheric pressureSpecific Volume in Pressure CookersA pressure cooker is generally filled with food that is in a liquid state. Often there is also some food in a solid state, but a liquid is necessary for this type of cooking to work. When the lid is closed, the vapor cannot escape from the pressure cooker chamber except through the steam vent with the pressure regulator on it. Therefore during the cooking process, the total volume is the same. The goal for pressure cooking is to cook the food inside at a higher temperature without allowing too much liquid to evaporate. This shortens the cooking time. We do need to generate some steam, however, because the additional goal that we try to achieve with a pressure cooker is to use hot steam for cooking. Steam has a much higher heat capacity than air, meaning that it is more efficient at storing energy. This is why it is used in pressure cooking. The energy efficiency of steam and the fact that we cook food at temperatures of about 120°С means that we can cook our food faster and use less energy to achieve the same result as we would with boiling or cooking in the keep the mass and the volume of the contents of the pressure cooker more or less constant by preventing most of the steam from escaping. This ensures that the specific volume also stays somewhat constant. As we discussed earlier, if one among either the pressure, the temperature, or the specific volume is kept constant, then the magnitude of the other two variables depends on each other. Thus, if we increase temperature, as we do during pressure cooking, then the pressure inside increases also. Eventually, we would reach the temperature-pressure balance, such that further increase in external temperature would result in evaporation. This is the maximum temperature that can be reached for the given specific volume and pressure. This is when we lower the heat to keep the temperature and the pressure constant for the remaining cooking a pressure cooker is not only energy-efficient. It also reduces cooking times, as we mentioned before, and thus heats the kitchen a lot less, which is useful during the warm seasons. It can also be argued that pressure cooking is a healthy option because it does not require additional oil as does frying or kesulitan menerjemahkan satuan pengukuran ke bahasa lainnya? Bantuan tersedia! Posting pertanyaan Anda di TCTerms dan Anda akan mendapatkan jawaban dari penerjemah teknis berpengalaman dalam hitungan menit. MekanikMekanika merupakan cabang fisika, yang mempelajari perilaku badan fisik saat terkena gaya atau pemindahan, dan efek lanjutan badan tersebut pada KhususVolume khusus dari zat adalah rasio volume zat terhadap massanya. Volume ini adalah kebalikan dari kerapatan dan merupakan sifat benda secara untuk volume khusus adalah meter kubik per kilogram [m³/kg].Menggunakan Pengonversi Volume KhususPengonversi satuan online ini memungkinkan konversi yang cepat dan akurat antar banyak satuan pengukuran, dari satu sistem ke sistem lainnya. Laman Konversi Satuan menyediakan solusi bagi para insinyur, penerjemah, dan untuk siapa pun yang kegiatannya mengharuskan bekerja dengan kuantitas yang diukur dalam satuan bisa menggunakan pengonversi online ini untuk mengonversi antar beberapa ratus satuan termasuk metrik, Inggris dan Amerika dalam 76 kategori, atau beberapa ribu pasang termasuk akselerasi, luas, listrik, energi, gaya, panjang, cahaya, massa, aliran massa, kepadatan, kapasitas massa, daya, tekanan, tegangan, suhu, waktu, torsi, kecepatan, kekentalan, volume dan kapasitas, aliran volume, dan masih banyak lagi. Catatan Bilangan bulat angka tanpa desimal atau eksponen dianggap akurat hingga 15 digit dan jumlah digit maksimum setelah titik desimal adalah kalkulator ini, lambang E digunakan untuk mewakili angka yang terlalu kecil atau terlalu besar. Lambang E adalah format alternatif dari lambang ilmiah a • 10x. Misalnya = 1,103 • 106 = 1,103E+6. Di sini E dari eksponen mewakili “• 10^”, yaitu “kali sepuluh yang dinaikkan ke kekuatan ”. Lambang E umumnya digunakan dalam kalkulator dan oleh ilmuwan, matematikawan dan satuan untuk dikonversikan dalam kotak sebelah kiri yang berisi daftar satuan untuk dikonversi dalam kotak sebelah kanan yang berisi daftar nilai misalnya “15” ke dalam kotak Dari di sebelah akan muncul di kotak Hasil dan di kotak Anda bisa masukkan nilai ke kotak Ke di sebelah kanan dan membaca hasil konversi di kotak Dari dan work hard to ensure that the results presented by converters and calculators are correct. However, we do not guarantee that our converters and calculators are free of errors. All of the content is provided “as is”, without warranty of any kind. Syarat dan Anda dapati kesalahan dalam teks atau perhitungan, atau Anda membutuhkan pengonversi lainnya, yang tidak Anda temukan di sini, silakan beritahukan kami!Saluran YouTube untuk Pengonversi Unit 1 cubic meter of water equals 1000 kilograms Volume to 'Weight' Converter - Chemistry Inputs?Notes the results in this calculator are rounded by default to 3 significant figures. The densities values are show and are valid for a certain temperature. Don't use this calculator for critical purposes, unless you know what you are doing exactly. Material or substance ?Please, choose an substance by typing its name in the left box. From Volume Unit Volume Quantity ?Please, select the volume unit cup, milliliter, liter ... to which you want to convert, then select its quantity. Ex. 1, 1/2, ... To Unit of Weight Mass ?Please, select the weight unit kilogram, tonne, pound, etc., then press / click the 'Calculate' button. Significant Figures 2 3 4 5 Results 1 cubic meter of water weighs 1000 kilograms. See also Substances Densities Chart How to convert 1 cubic meter of water to kilogramsTo convert a quantity of a substance or material expressed as a volume to mass we simply use the formulamass = density × volume The density of water is 1000 kg/m³ see the densities table below. The volume we want to convert is 1 plugging these values in the formula above, we getmass = density × volume = 1000 × 1 = 1000So, 1 cubic meter of water equals 1 × 103 kilograms Kg. How to convert from volume to mass incorrectly called weight? Well, by definition of density we just need to use the formula mass = density × volume Example How much does 2 cubic meters of gasoline weigh in kilograms if the gasoline density is 750 kg/m³? Plugging the values in the formula, we get mass = density × volume = 750 × 2 = 1500 Kg Very simple isn't it? Yes, it is as simple as that. But this works fine when the density value we have from a chart for example is defined using the same unit of volume and mass that we will use in the formula. For example, mass in kg and volume in liters. If we have, for example, mass in pounds and volume in gallons, we should do something to correct our result. To transform the mass from pounds to kilograms we should multiply the mass in pounds by We will call the mass conversion factor - mcf Matematically we write mass in kilograms = mass in pounds × mcf ormkg = mlb × mcf 1 To transform the volume from gallons to cubic meters we should multiply the volume in cubic meters by We will call the volume conversion factor - vcf Matematically we write volume in cubic meters = volume in gallons × vcf orvm³ = vgal × vcf 2 Now, dividing the equation 1 by the equation 2, we get mkgvm³ = mlb × mcfvgal × vcf, or mkgvm³ = mlbvgal × mcfvcf, but mkgvm³ is, by definition, the density d in kg/m³, so d = mlbvgal × mcfvcf Rearranging the formula above we get mlb = d × vgal × vcfmcf Finally, we can generalize this formula any units of mass and volume, since we know how to find the values for mcf and vcf Check the factor tables below. m = d × v × vcfmcf That is exactly the formula that we use in this calculator. You can see how this formula works reading the example above or/and choosing another one at the bottom of this page. Cubic meters of water to kilograms ChartCubic meters of water to cubic meter of water = 100 kilograms1/5 cubic meter of water = 200 cubic meter of water = 300 cubic meter of water = 400 kilograms1/2 cubic meter of water = 500 cubic meter of water = 600 cubic meter of water = 700 cubic meter of water = 800 cubic meter of water = 900 kilograms1 cubic meter of water = 1000 kilogramsCubic meters of water to kilograms1 cubic meter of water = 1000 cubic meters of water = 1100 kilograms1 1/5 cubic meters of water = 1200 cubic meters of water = 1300 cubic meters of water = 1400 kilograms1 1/2 cubic meters of water = 1500 cubic meters of water = 1600 cubic meters of water = 1700 cubic meters of water = 1800 cubic meters of water = 1900 kilogramsNote some values may be rounded. These tables contain the most frequently used vcf and mcf. Volume UnitFactor to convert to m³ vcf UK fluid US fluid UK US Mass UnitFactor to convert to kg mcf tonne1000 References Mass, Weight, Density or Specific Gravity of Liquids Mass, Weight, Density or Specific Gravity of Water at Various Temperatures Full Weight Converter FAQs on water weight to volume conversion 1 cubic meter of water equals how many kilograms? 1 cubic meter of water is equivalent 1000 kilograms. How much is 1000 kilograms of water in cubic meters? 1000 kilograms of water equals 1 cubic meter. Examples of Volume to Weight Conversions ml of benzene in grams 3/4 gallon of aniline in pounds 1 ounce of formaldehyde in grams 1 liter of milk in kg 2 ounces of chloroform in grams 1/3 ounce of acetone in grams 8 gallons of propylene carbonate in pounds 1/3 ounce of chlorobenzene in grams 10 liters of chloroform in tonnes 1/3 gallon of glyme in pounds 10 liters of ethyl alcohol in tonnes liter of diethylene glycol in kg 10 gallons of beer average in kg 1 ounce of furforol in grams gallon to pounds converter Tambahkan ke Favorit Hapus dari favorit Kilogram per meter kubik Bahan tambahan pada topik Kilogram per meter kubik Meter kubik per menit Tabel konversi laju aliran volumetrik, semua unit pengukuran laju aliran volumetrik Meter kubik per menit Joule per kilogram Tabel konversi dosis radiasi, semua unit pengukuran dosis radiasi Joule per kilogram Meter kubik per hari Tabel konversi laju aliran volumetrik, semua unit pengukuran laju aliran volumetrik Meter kubik per hari Meter kubik per detik Tabel konversi laju aliran volumetrik, semua unit pengukuran laju aliran volumetrik Meter kubik per detik Metrik ton-force Metrik ton-force atau ts T - adalah satuan metrik gravitasi pengukuran daya sama dengan gaya yang bekerja pada berat badan dari satu metrik ton dalam medan gravitasi standar. Metrik ton-force Newton meter yang Newton meter Nm - adalah ukuran dari jumlah pekerjaan dan energi. Newton meter yang Meteran per jam Tabel konversi kecepatan, semua unit pengukuran kecepatan Meteran per jam Panjang ton-force A ton-force panjang - adalah unit pengukuran gaya gravitasi di sistem tradisional Amerika dan Inggris dari tindakan, itu adalah sama dengan gaya yang bekerja pada massa tubuh dari satu ton panjang dalam medan gravitasi standar. Panjang ton-force Meter kubik per jam Tabel konversi laju aliran volumetrik, semua unit pengukuran laju aliran volumetrik Meter kubik per jam

kalkulator konversi m3 ke kg