The number of boxes

Result:

Volume of one box (m 3):

Total volume(m3):

Use the received
result for
filling out an application

Number of pipes

Result:

Volume of one pipe (m 3):

Total volume(m3):

Use the received
result for
filling out an application

How to calculate the volume of a box?

Do you have a question about delivery?, and there was also a need to know how to calculate the volume of cargo, do you need our help? We know how to calculate the volume of cargo; on this page you see a calculator that will accurately perform the calculations.

In general, for what purpose is the volume calculated?

The volume must be calculated in order to avoid misunderstandings when loading loaded boxes into vehicle. Calculate volume using modern technologies Today it’s not difficult, just being here is enough.

What criteria do we use to calculate cargo volume?

Firstly, everyone knows that every detail is important in the delivery process, and it is important to calculate the volume of the cargo as a whole without errors. As already mentioned, our volume calculator will help you calculate the volume of cargo; it will do it quickly and reliably!

Second- volume calculator, start it on our website, it has already been said above, as you can see, we care about our clients. A volume calculator is what can make working with calculations as easy as possible and completely kill your doubts.

What do we give you?

What else is needed?

For example…

You are an entrepreneur who transports goods from China, and you constantly need a volume calculator. You can quickly find a volume calculation calculator on the pages of our website, and perform your calculations right away.

Nowadays, entrepreneurship rests on Chinese production of goods, but where did the need to calculate the volume come from? It is necessary to calculate the volume in order to find out the total volume of the cargo, and then select the type of transport.

What is the calculation of delivery volumes? And what role does he play?

Volume calculation- this is how much, you already understand very much important stage in delivery, and it must be trusted in reliable hands professionals. Calculation of cargo volume must be done carefully, taking into account all dimensions and converting them into cubic meters.

But unfortunately, not everyone copes with these calculations.

Back in school days, we studied how to calculate the volume of cargo in m3, but unfortunately, you won’t remember all of this. How to calculate the volume of cargo in m3 - there are times when this question comes first, for example during delivery.

That's what this page exists for!

After all, that's what this page is for, to help you calculate delivery.

To calculate the volume of a box, you don’t have to try to do it yourself, you just need to fill in the empty fields. The volume of the box will be calculated automatically by our calculator; if in doubt, check it yourself.

This is why we reminded you of the volume formula.

Calculation of cargo volume in cubic meters you need in order to submit the correct application for its transportation. Calculating the volume of cargo in cubic meters, i.e. knowing the volume itself will help you decide which type of delivery is right for you.

Now let's move on to the main thing, let's talk about how to make calculations and why they are necessary.

First, let's figure it out...

Calculating the volume of cargo is not always as easy as it seems, all this is due to the fact that boxes can be of various shapes. Calculating the cargo volume of a rectangular box is a trifle, but the rest is a bit difficult, you need to know the formulas.

First, let's define the form; to do this, we first find out what they exist.

What shape can the box have?

• Rectangle;
• Cylinder;
• Truncated pyramid (very rare).

Then follow the measurements

Before calculating the volume of the box, let’s measure it, but remember, the more accurately the measurements are made, the easier it is for you. "How to calculate the volume of a box?" - what to do next: determine what shape it is (cube or rectangle), dimensions.

What does knowledge of volume give us?

Knowing the volume of the box will prevent misunderstandings when loading goods into any type of transport that may exist. Almost nothing depends on the volume of the box; on the contrary, everything depends on the size of the product itself.

And why? Everything is obvious here; before purchasing a box, you need to find out the size of the cargo that you are going to transport across the border.

Well, you know the size of the cargo, now all that remains is to calculate its volume (in order to purchase a box).

So, in order to find out how to calculate the volume of cargo in m3, you will need the formula first. How to calculate the volume of cargo in m3, the formula will help without a doubt in this matter, this is how it looks like V=a*b*h, everything is very simple.

Moreover, you already know it.

We would like to remind you that...

To make it easier for you to determine which type of transport to choose for delivery, you need to calculate the volume of cargo in m3. It is very simple to calculate the volume of cargo in m3; here you need to know the exact dimensions, which then need to be multiplied.

The units must be converted specifically to m3, otherwise it will not be possible to calculate delivery.

But what if the shape of the box is not rectangular, but round? After all, this is very rare, but it still happens.

You can calculate the volume of boxes or containers with a circle at their base, and there is also a formula for this. The volume of boxes can be calculated by the shape of a circle using the expression V *r2*h; the dimensions must first of all be accurately measured.

Volume calculator

We present to your attention a calculator: cargo volume in m3, with the help of which you can make calculations yourself. The cargo volume calculator is located on the rental website specifically for your convenience and for quick calculations.

Why do you need a cargo volume calculator?

We are business people and wasted time sometimes carries big disadvantages. Do you want to receive cargo quickly and reliably? And at the same time, find out the prices for their transportation and delivery as soon as possible?

This is where the cargo volume calculator will help!

Our volume calculator allows you to calculate the volume of cargo in m3, so the question about the volume of the box will no longer arise. The volume calculator is simple and easy to use; it will give results for both the volume of the box and the load.

So, using the volume calculator you solve several questions:

How to calculate the volume of a cargo (or box)? Don't forget about the quantitative unit you are taking into account.

Have you encountered one of them or encountered a similar one? Our company is pleased to offer for your convenience the volume in cubic meters of a box to calculate using a convenient calculator.

And finally, let's remember math!

What is the most common problem?

Many people confuse then how to calculate the volume of flat and volumetric figures, because they are mistaken in concepts, or rather, they find it difficult to answer. You don’t need to know how to calculate the volume, it’s enough that you indicate the dimensions, the main thing is not to forget that there are 3 of them.

Having completed all the calculations, one more task remains.

What kind of transport do you need?

Let us remind you that in delivery, in addition to how to calculate the cubic capacity, there are no less important things, for example, the placement of goods. You know how to calculate the cubic capacity, so everything else is in your hands, now the choice of transport depends on you.

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1 cubic meter [m³] = 0.353146667214886 register ton

Initial value

Converted value

cubic meter cubic kilometer cubic decimeter cubic centimeter cubic millimeter liter exaliliter petaliter teraliliter gigaliliter megaliter kiloliter hectoliter deciliter deciliter centiliter milliliter microliter nanoliter picoliter femtoliter attoliter cc drop barrel (petroleum) barrel American barrel British American gallon British quart USA quart British pint USA pint British glass American glass (metric) glass British fluid ounce US fluid ounce British tablespoon amer. tablespoon (meter) tablespoon brit. American dessert spoon Brit dessert spoon teaspoon Amer. teaspoon metric teaspoon brit. gill, gill American gill, gill British minim American minim British cubic mile cubic yard cubic foot cubic inch register ton 100 cubic feet 100-foot cube acre-foot acre-foot (US, geodetic) acre-inch decaster ster decister cord tan hogshead plank foot drachma kor (biblical unit) homer (biblical unit) baht (biblical unit) gin (biblical unit) kab (biblical unit) log (biblical unit) glass (Spanish) volume of the Earth Planck volume cubic astronomical unit cubic parsec cubic kiloparsec cubic megaparsec cubic gigaparsec barrel bucket damask quarter wine bottle vodka bottle glass charka shalik

Learn more about volume and units of measurement in recipes

General information

Volume is the space occupied by a substance or object. Volume can also refer to the free space inside a container. Volume is a three-dimensional quantity, unlike, for example, length, which is two-dimensional. Therefore, the volume of flat or two-dimensional objects is zero.

Volume units

Cubic meter

The SI unit of volume is the cubic meter. The standard definition of one cubic meter is the volume of a cube with edges one meter long. Derived units such as cubic centimeters are also widely used.

Liter

The liter is one of the most commonly used units in the metric system. It is equal to the volume of a cube with edges 10 cm long:
1 liter = 10 cm × 10 cm × 10 cm = 1000 cubic centimeters

It's the same as 0.001 cubic meters. The mass of one liter of water at a temperature of 4°C is approximately equal to one kilogram. Milliliters, equal to one cubic centimeter or 1/1000 of a liter, are also often used. Milliliter is usually denoted as ml.

Jill

Jills are units of volume used in the US to measure alcoholic drinks. One jill is five fluid ounces in the British Imperial system or four in the American system. One American jill is equal to a quarter of a pint or half a cup. Irish pubs serve strong drinks in portions of a quarter jill, or 35.5 milliliters. In Scotland, portions are smaller - one fifth of a jill, or 28.4 milliliters. In England, until recently, portions were even smaller, just one-sixth of a jill or 23.7 milliliters. Now, it’s 25 or 35 milliliters, depending on the rules of the establishment. The owners can decide for themselves which of the two portions to serve.

Dram

Dram, or drachma, is a measure of volume, mass, and also a coin. In the past, this measure was used in pharmacy and was equal to one teaspoon. Later, the standard volume of a teaspoon changed, and one spoon became equal to 1 and 1/3 drachms.

Volumes in cooking

Liquids in cooking recipes are usually measured by volume. Bulk and dry products in the metric system, on the contrary, are measured by mass.

Tea spoon

The volume of a teaspoon is different in different measurement systems. Initially, one teaspoon was a quarter of a tablespoon, then - one third. It is the latter volume that is now used in the American measurement system. This is approximately 4.93 milliliters. In American dietetics, the size of a teaspoon is 5 milliliters. In the UK it is common to use 5.9 milliliters, but some diet guides and cookbooks use 5 milliliters. The size of a teaspoon used in cooking is usually standardized in each country, but different sizes of spoons are used for food.

Tablespoon

The volume of a tablespoon also varies depending on the geographic region. So, for example, in America, one tablespoon is three teaspoons, half an ounce, approximately 14.7 milliliters, or 1/16 of an American cup. Tablespoons in UK, Canada, Japan, South Africa and New Zealand - also contain three teaspoons. So, a metric tablespoon is 15 milliliters. A British tablespoon is 17.7 milliliters, if a teaspoon is 5.9, and 15 if a teaspoon is 5 milliliters. Australian tablespoon - ⅔ ounce, 4 teaspoons, or 20 milliliters.

Cup

As a measure of volume, cups are not defined as strictly as spoons. The volume of the cup can vary from 200 to 250 milliliters. A metric cup is 250 milliliters, and an American cup is slightly smaller, approximately 236.6 milliliters. In American dietetics, the volume of a cup is 240 milliliters. In Japan, cups are even smaller - only 200 milliliters.

Quarts and gallons

Gallons and quarts also have different sizes, depending on the geographic region where they are used. In the Imperial system of measurement, one gallon is equal to 4.55 liters, and in the American system of measurements - 3.79 liters. Fuel is generally measured in gallons. A quart is equal to a quarter of a gallon and, accordingly, 1.1 liters in the American system, and approximately 1.14 liters in the Imperial system.

Pint

Pints ​​are used to measure beer even in countries where the pint is not used to measure other liquids. In the UK, milk and cider are measured in pints. A pint is equal to one-eighth of a gallon. Some other countries in the Commonwealth of Nations and Europe also use pints, but since they depend on the definition of a gallon, and a gallon has a different volume depending on the country, pints are also not the same everywhere. An imperial pint is approximately 568.2 milliliters, and an American pint is 473.2 milliliters.

Fluid ounce

An imperial ounce is approximately equal to 0.96 US ounces. Thus, an imperial ounce contains approximately 28.4 milliliters, and an American ounce contains approximately 29.6 milliliters. One US ounce is also approximately equal to six teaspoons, two tablespoons, and one eighth cup.

Volume calculation

Liquid displacement method

The volume of an object can be calculated using the fluid displacement method. To do this, it is lowered into a liquid of a known volume, a new volume is geometrically calculated or measured, and the difference between these two quantities is the volume of the object being measured. For example, if when you lower an object into a cup with one liter of water, the volume of the liquid increases to two liters, then the volume of the object is one liter. In this way, you can only calculate the volume of objects that do not absorb liquid.

Formulas for calculating volume

Volume geometric shapes can be calculated using the following formulas:

Prism: the product of the area of ​​the base of the prism and the height.

Rectangular parallelepiped: product of length, width and height.

Cube: length of an edge to the third power.

Ellipsoid: product of semi-axes and 4/3π.

Pyramid: one third of the product of the area of ​​the base of the pyramid and the height.

Parallelepiped: product of length, width and height. If the height is unknown, then it can be calculated using the edge and the angle it makes with the base. If we call the edge A, corner A, length - l, and the width is w, then the volume of the parallelepiped V equal to:

V = l w a cos( A)

This volume can also be calculated using the properties of right triangles.

Cone: radius squared times height and ⅓π.

Ball: radius to the third power multiplied by 4/3π.

Cylinder: product of the area of ​​the base of the cylinder, height, and π: V=π r² h, where r is the radius of the cylinder and h is its height

The ratio between the volumes of cylinder:ball:cone is 3:2:1.

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

Large quantities of crushed stone are regularly supplied to construction sites. But the whole point is that the density of this material can be different. It is usually measured in cubic meters, but the density of the stone significantly affects the mass of the structure, and this is the basis for architectural calculations. If we take into account buildings with no more than 12 storeys, then the mass can be neglected, but if you need to build a skyscraper or a bridge with long spans, then this factor has a significant influence. How many tons of crushed stone are in a cube can affect not only the final strength of the structure, but also the characteristics of the foundation future construction. It is for this reason that the pressure area is usually increased specifically by 10-15% in order to avoid troubles in the future.

What affects the volume of crushed stone?

The only characteristic that affects the volume of crushed stone is its fraction. If there is only one faction, then it will not settle tightly even with strong shaking. Due to this it turns out a large number of voids, and the larger the fraction, the less a cubic meter will weigh. The densest is the so-called granite screening, which is more reminiscent of fine gravel. It weighs so much that you need to be careful when filling trucks so as not to tear the frame and springs.

The volume also greatly depends on the nature of the rock and on the equipment installed at the mining and processing plant. The fact is that better seal show only cuboid and prismatic fragments.

The flakiness of crushed stone greatly reduces its density, which will also then affect its density. Crushed stone can also be limestone. Not only is the density of this rock quite low, but also the curved fragments that form the fraction fit very poorly with each other. That is why this material is only suitable for road construction. As a filler for concrete, it should only be used in the most as a last resort. You can use it to build a one-story building - a house, garage or barn. The second floor on concrete made of crushed limestone will be unpredictable.

Water absorption is no less important factor when determining the weight of a cubic meter of crushed stone. Neglecting this factor in calculations will result in inaccurate results. Water absorption is also influenced by different rock porosities and different size factions and if they are not taken into account, then the calculations will be incorrect.

How to convert the volume of crushed stone into mass

This translation is extremely complex and often difficult. You can give the following table so that you can make at least approximate calculations.

Table of density of bulk crushed stone depending on brand

Accordingly, when purchasing a certain volume of crushed stone, you can calculate its mass using the formula:

Mass of crushed stone = Volume of crushed stone * Coefficient (from the table)

For example, 2.5 cubic meters of fraction 5-10 will weigh: 2.5 * 1.38 = 3.45 tons.

It is worth noting that these indicators are valid only for granite crushed stone made from gray granite of the highest quality. It is also worth considering that the calculation result is approximate, since the value of the coefficient is influenced by the above factors. Only an accurate measurement of the control volume will help answer the questions.

Table of approximate weight per cubic meter of various types of crushed stone

You can, of course, measure it using a bucket, for example, but this is a very labor-intensive and time-consuming process. In the event that it is not so important exact weight 1m 3 crushed stone, then you can take the average weight of 1m 3 crushed stone: 1.4 tons. Each person decides independently which calculation method to use, the most important thing is to get the most accurate result necessary during the construction work.

Density of crushed stone - what affects

In fact, there are a lot of such indicators. But you can try to describe at least the main ones:

• Humidity. Despite the fact that the material does not seem to be wetted at all, it is quite hygroscopic, especially if the pile is constantly stored in the open air. The surface of the crushed stone is actively moistened, and it increases its mass. The frost resistance of the material also depends on this ability. Only one material demonstrates exceptional resistance to splitting from the expansion of water during freezing - basalt, but crushed stone from it has a huge mass and is very expensive.
• Compound. As you know, granite consists of feldspar, mica and quartz. The more of the first component, the heavier the granite. Quartz is also quite heavy, but it greatly affects not so much the density as the strength of the sample. The presence of a large amount of mica is generally undesirable, because it delaminates the stone into fragments at the slightest load. It also conducts cold well, so a house made of such crushed stone will never be warm. If crushed stone has a large amount of quartz in its composition, then it will be lighter, but will have poor thermal conductivity. In some countries, for example in Norway, it is possible to use pure quartz crushed stone. For us, it will be prohibitively expensive.
• Fraction size. The faction can indeed be different. It is only worth mentioning that the lightest stone is considered to be a huge rubble stone, between the fragments of which there are large gaps.

If we talk about crushed limestone, its density is also affected by porosity, and humidity is very strongly influenced. It can almost double its mass in nominal volume when stored at outdoors. That is why it is used only in road construction, and even then in heavy traffic it quickly becomes unusable. Therefore, no specialist can accurately answer the question of how many tons of crushed limestone there are in a cube. You just need to weigh it before loading the dump truck.

Only weighing can tell you exactly how many tons of crushed stone there are in a cube. The thing is that most manufacturers have different equipment for crushing. Even the size of the screen tooth significantly affects the shape of the fraction, and this determines how it will be compacted during filling. In Western practice, the so-called vibration compaction is used, but our sellers usually do not use it. Optimizing space comes down to financial gain. In our country, this practice is unacceptable, so we can be content with only approximate indicators, which often vary greatly.

If household construction of low-rise buildings and structures is carried out, then how many tons of crushed stone per cube does not affect the final result at all. This is the basis for engineering surveys during the construction of strategically important and earthquake-resistant facilities. Moreover, this should not be taken into account in road or drainage construction.

When choosing bulk building materials, you may encounter the problem of converting mass into volume - from tons to cubic meters. To calculate the volume, you need to know the density of a given material and its mass (the density of the bulk material takes into account not only the volume of the particles themselves, but also the space between them).

There are two ways to convert tons to cubic meters: theoretical and practical. The result of theoretical calculations will be approximate, and practical ones will be more accurate.

Quick navigation through the article

Theoretical calculations

In order to calculate the approximate volume of material using theoretical calculations, you need:

• Find a table with the density coefficient of the corresponding material;
• Applying the formula: V=m/K, where “V” is the required volume, “m” is the known mass, “K” is the density coefficient of the given material.

It must be remembered that the values ​​of the table coefficients are valid under standard conditions: average air temperature (20 o C for solid, bulk and liquid substances, 0 o C for gases, boiling point for liquefied gases) and normal atmospheric pressure. The mass of hygroscopic materials is affected by air humidity.

Practical way

To convert mass to volume in a practical way, necessary:

• Take a 10 liter bucket;
• Weigh the empty bucket;
• Pour the material to be measured into the bucket without compacting the contents;
• Weigh the filled container;
• Subtract the mass of the empty bucket from the mass of the filled one;
• Correlate the mass of the material with its volume - on the scale of a bucket it will be kilograms per 0.01 m 3 (10 l);
• Convert kilograms to tons (1t=1000kg) and multiply by 100 to get the number of tons per cubic meter (bulk density coefficient);
• Measure twice to obtain an average result.

At the first measurement, 16 kg of gravel fit into a 10-liter bucket - the mass-to-volume ratio is 16kg/0.01m3 =1600kg/m3=1.6t/m3. At the second measurement, 15.5 kg fit, and the bulk density coefficient was 1.55 t/m 3. The average coefficient is 1.575. The volume of seven tons of gravel with the resulting density coefficient will be approximately 4.44 m 3.

It's no exaggeration that Crushed stone is considered popular in the use of strong mountain materials for the construction of buildings. Crushed stone has a wide range of uses: in the construction of roads and railway tracks, the construction of various objects landscape design. Multi-colored stones are used to decorate paintings to achieve the most colorful effect. However, despite such popularity, a fairly large number of people do not understand what construction material it is better to purchase, otherwise they do not distinguish crushed stone from gravel and other types at all bulk materials. Most of crushed stones are systematically brought to construction sites for repair work. However, the problem is that the saturation of this material used is quite diverse. Typically, density is measured in cubic meters (m³). The strength of the stones has a noticeable effect on the weight, which is important in construction calculations. It can be concluded that the amount of 1 m³ tons of sand affects the final calculation of the strength of the device, but also affects the properties of the base of the structure. According to this circumstance, the pressure area is increased to 10% to eliminate a number of problems. The conversion of crushed stone from m3 to tons is described in the article.

Types of crushed stone used in construction

How to convert crushed gravel from cubic meter to tons

Crushed gravel – compacted and durable source, which can withstand approximately 200 freeze-thaw cycles while retaining its properties.

Contains a small background radiation. Used in the manufacture of concrete buildings.

Limestone crushed stone is one of the more commonly used ones.

It differs from other types of crushed stone in its environmental friendliness, which is why it is also in demand.

For production, sedimentary rocks are required, the structure of which contains the mineral.

Due to fission, the released raw materials undergo a special chemical process. processing. It has a number of tones: brown, reddish, snow-white, yellowish, grayish.

The main advantages are considered greater stability to frost, and also a low degree of humidity.

Granite crushed stone is taken out from the rock, and the next procedure is the operation of crushing the material.

Recycled crushed stone is used to build roads. Assumes aggregate.

Slag crushed stone is produced by division of blast furnace slag.

Unlike other materials, it contains the usual characteristics of strength and resistance to cold weather. Generally used in track construction.

Decorative

Decorative crushed stone is a key source when decorating “ alpine slides”, flower beds, fountains.

There are three groups of different tint varieties:

• ruby;
• yellowish;
• snow-white.

Peculiarities

What affects volume? We need to focus our interest on characteristic features in order to establish the use of the material:

• frost resistance - assessment of stability to freezing and thawing. At the same time, the material must retain its quality. Typically denoted by the letter “F”;
• reliability – stability of crushed stone to the grinding process, as well as to compression. Indicated by the letter “M”;
• - grade physical properties, which determines the planar dimensions of each individual grain, which is determined by the correspondence to length/thickness. High-quality crushed stone must have the lowest indicator;

• adhesion is a rating responsible for the connection of crushed stone with other elements.

When the humidity exceeds 10%, the liquid fills all the voids between the grains, displacing the air. The moisture content of the material can be determined in the following way: measure the difference and discrepancy in the mass before drying and after drying.

Divide the result obtained by the initial mass of the contents of the material (usually one kilogram).

Dry on a special metal baking sheet until the moisture completely disappears, when the initial mass stops decreasing.

The first method is to use information regarding the finished coefficient. With any calculations carried out or expected, you should be well aware that the resulting calculation result is approximate and not 100%. We have already clarified this, and the percentage of loss can fluctuate from approximately 0.1 to 5%.

Method II – carrying out measurements using any container. The fact that the presented option was more effective was also discussed.

It is necessary to lay crushed stone in bulk in a special cylinder, for example, a bucket with a volume of approximately 10 liters, a height of 10 centimeters, until it is completely filled to the very edges of the container, to the top. The excess on top is leveled with the vessel being used, without pressing the crushed stone.

Sand has a variety of origins and is mined different ways, and therefore it is divided into several types. quartz sand formula.

Cement mortar is the most important component that is necessary when plastering walls, pouring foundations, and laying bricks. proportions and ratio of cement mortar.

Modern room decoration involves the use of special tile adhesive. By clicking on you can get acquainted with its characteristics.

V us.pl. = Weight of loose mat. /V vessel

People are often concerned about how to convert cubic meters to tons and vice versa. In the information text everyone will find answers to all important questions. Use useful articles to choose suitable method personal conversion of tons of crushed stone to cubic meters.

Visual calculations shown on the conversion calculator from cubic meters

At the first stage, familiarize yourself with the density indicator (kg/m³). You can find out the information on the document. Density natural material− 1300. It may change with increasing moisture. If the indicator has increased, other data will be required for the calculation: wet crushed stone 1500.

If the material is wet and, in addition, mixed with clay mass, then 1800.

The next step is to extract mass using a scientific formula. Next, convert the finished result from kilograms to tons using the division by 1000 command.

Available: 15 cubes of wet crushed stone. Now you need to find out the weight. Density (P) − 1500 kg/m³. The next stage of multiplication and division: V – 15 m3* 1500 = 22500 kg. 22500/1000=22.5 tons.

Conversion factors m³ to tons

Material: sand-gravel, natural crushed stone, river sand, crushed stone 5-10, 5-20, crushed stone 20-40, crushed stone 40-70 (M 1200), crushed stone 5-10, crushed stone 5-20, 20-40 (M -700-800)

Volume 1 m³

Conversion factor – 1.65, 1.4, 1.5, 1.43, 1.4, 1.38, 1.3, 1.4, 1.36, 1.35

Weight, in tons – 1.65, 1.4, 1.5 1.43, 1.4, 1.38, 1.35, 0.2, 0.3, 0.4, 1.2

conclusions

Having read and become more familiar with the problem of calculating building materials, you are now completely are aware of options and methods for calculating and converting crushed stone from m³ to tons.

There are minor errors in the calculations provided, including the varied composition of stones, moisture, density, strength, size, as well as the location of rock quarrying. Also take into account the tare weight when weighing. No matter how primitive this advice may seem, sometimes it common reason influence on inaccurate weight.

Draw your conclusions based on the information provided and go shopping for the material that suits you best.