Fill a container with water; note the water level. Dump the object into the water; note the new water level. The difference between the two water levels is an indication of the volume of the object.
1. Break the object down into regular shapes that can be measured and
quantified.
2. Submerge the object in a known volume of liquid (that won't dissolve the object), and measure the change in volume.
If the object is real object, you can figure the volume of the object by using water displacement.
If the object is a mathematical object or a fragile object, take and "cut up" the object into volumes you can calculate and add the numbers together.
Submerge it in a beaker and measure the change in the volume.
you can divide it into triangles and add up all of the areas
You can use water displacement.
One way to figure this out is to put the object in a graduated cylinder containing water and measuring the changes in the volume of the water.
it can be found by first taking the volume of the water itself and then the volume of the object in the water. you pour water into the 12-sided object, then measure the amount of water using the graduated cylinder. Then you do this: length x width x height = volume
Finding the volume of many odd shapes is only possible with integral calculus. Google " volume of revolution. "
Immerse the object in water and measure the volume of water that is displaced. One way would be to fill a container, large enough to hold the object, with water until it is just about to overflow. The container and water would need to be inside another container that could capture the displaced water. Submerge the object in the water and then measure the volume (or weight) of the water that overflows
You could immerse it in a liquid, and measure the volume of the displaced liquid.You could also use integration techniques.You could immerse it in a liquid, and measure the volume of the displaced liquid.You could also use integration techniques.You could immerse it in a liquid, and measure the volume of the displaced liquid.You could also use integration techniques.You could immerse it in a liquid, and measure the volume of the displaced liquid.You could also use integration techniques.
o take the irregular shape & put in a graduated cylinder filled with the amount of water you want. then you take the measurement on how much it grew then subtract your answer with the original
Yes
Use a graduated cylinder to precisely measure volume
To find the volume of a solid you can't simply calculate, get a large tub of water in which you can completely immerse the solid. Fill the tub with water to the edge, then submerge the solid. Any water that spills over has been replaced by the solid and signifies the amount of space the solid is now taking up. Weigh the water or put it in 1l bottles. 1kg of water is 1l and a liter is a cubic decimeter. From there you can calculate the volume in any unit you want.
If its regular (geometric shaped) you could just measure it with a ruler using the formula for the shape in question. Irregular shaped objects can be submerged in water. The difference in the water level before and after submersion equals the volume of the object.length X width X height
Immerse it in a liquid, and measure how much the level of the liquid rises.
Immerse the object in water, and measure the increase in the volume of the water. If you know the dimensions of the object, you could work out several cross sections by Simpson's rules, then the volume by applying Simpson's rules to the series of cross sections. (An approximate method, improving in accuracy with more measurements) Create a computer surface model of the object by scanning with a laser. Calculate the volume of the object using CAD modelling package or similar program