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Pour water into a cuboid glass container (water can submerge a stone), put the stone in it, measure the height of the rise with a ruler, measure the length and width of the bottom surface of the cuboid, and let the length by the width of the water rise to the height of the small stone!
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Measure the bottom area of the glass container with a ruler, then pour in water, measure the water height, then put in the stone, measure the water height again, multiply the difference between the two water heights by the bottom area, and get the volume of the stone.
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Use a ruler to measure the length a, width b, and depth of water h1 of the cuboid glass container, and pay attention to the appropriate amount of water (measured from the inside) so that the stone will not overflow.
Put a small stone into the water, and measure the water depth h2 with a ruler, then the volume of the small stone v=ab(h2-h1).
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First, add a certain amount of water to the container, measure the data with a ruler, and then calculate the v1 of the water; Then put the stone into the container, measure the depth of the water again after the water is still, calculate v2, and subtract the two volumes (v2-v1) to get it.
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1.Use a ruler to measure the length (a) and width (b) of the inside of the glass container.
2.Fill the container with some water, measure and record the height of the water surface (h).
3.A small stone is placed in the water, which is required to be completely submerged in the water, and the water surface height (h) is measured and recorded.
4. The volume of the small stone a*b*(h-h).
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Fill a container with a certain amount of water and record the scale.
The volume of the stone is when the stone is placed in the part that enters the scale and increases in height.
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This is too simple, a typical example of the drainage method. Look at the few upstairs specifically, what you said is correct.
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Throw the stone into a container filled with water and measure the V row.
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If the stone is too large to be measured by the drainage method, it is recommended to use depth vision camera technology and laser measurement technology.
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1. Take a bucket, fill it with water, put the stone in the bucket, fill the overflowing water, and measure the volume of water;
2. If the mass of the stone is very large, the density and mass of the stone can be measured, and the volume is equal to the mass divided by the density;
3. Put the stone on the scale, and put the same cut stone on the other side of the scale, the area is already known, and when the balance is balanced, the area on both sides is equal.
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Prepare a container with water.
Put the stone in it and the water will overflow, and the volume of the overflow water is the volume of the stone, just measure how much water is overflowing.
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1.Direct measurement. The dimensions (length, width, height) of the stone can be measured directly, and then these measurements are used to calculate the volume. This method works well for regular, well-defined objects such as cubes or cylinders.
2.Spinal submersion method (Archimedes' principle). This method is to fill a container (graduated cylinder or measuring cup) with water, then put in the stone, measure the change of the scale of the gage after the stone is placed, and the difference before and after is the volume of the stone.
Ray method. It is a non-destructive method that uses X-rays to measure the density of a stone. The density of the stone can then be used to calculate its volume.
This method is often used for small, valuable gemstones or gemstones with complex shapes that cannot be measured with other methods.
Scan. A 3D scanner can be used to create a digital twin of Sakura's stone, from which its volume can be calculated. This method is effective for stone bridges with complex shapes and can be done without damage.
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The first is to add water or other liquid to a graduated container, and put the stone into the water, and the scale of the liquid rises is the volume, provided that the stone does not absorb water or other liquids. Second, if you know the density of the stone, weigh it and divide it by it. The third way is to put the stone on the scale, and put the regular small stone on the other side of the scale, and when it weighs as much as him, he calculates that the volume of all the small stones is equal to the volume of the irregular stone!
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It can be calculated like this.
1.Find a measuring cup or measuring cylinder that is slightly larger than a stone to hold water, the size can fit into the stone, the water is not too full, and note the volume of water.
2.Put the stone in a measuring cup or graduated cylinder, and when the stone is completely submerged in water, write down the scale of the measuring cup or graduated cylinder, which is the volume of water and the stone. Be careful not to overflow the water.
3.The two scales are subtracted by the volume of the stone.
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In general, due to the irregular shape of the stone. Therefore, there is no way to calculate its volume directly. It is usually possible to put it in the water. Then calculate the volume of the part of water that gets taller.
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Method grip tremor one:
Drainage method. First, put an appropriate amount of water in the container, immerse the stone in the water, and measure the volume of the rising part of the water surface to be the volume of the stone.
In the beginning, the volume of water was 200cm.
When you add stones, it rises to 400cm
From this, we conclude that the volume of the stone is 200cm
Method 2: If the density of the object is known, you can also use a balance to measure the mass of the object, and then calculate its volume from the density formula. Duan defeated.
The third way is to put the stone on the scale, and put the regular small stone on the other side of the scale, and when it weighs as much as him, he calculates that the volume of all the small stones is equal to the volume of the irregular stone!
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1.Put an appropriate amount of water in a glass container with a long ant cube, measure the length, width and height with a ruler, and calculate the volume of water.
The stone is placed in a container filled with water, and the length, width and height are measured by the hail again, and its new volume is calculated.
The difference between the two volumes is the size of the stone.
2.Start by measuring the small stones directly with a balance.
The mass m, then use a graduated cylinder.
and water to measure the volume v of the small stone, and according to =m v, find the density of the small stone
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