Eureka! Archimedes may have the answer. Sink your solid in a measuring cylinder,or the equivalent, and measure the volume of the displacement.
Archimedes indeed discovered the practical solution. The formulas for almost all theoretical solids were figured out by the time of Johan Kepler.
It was Isaac newton and/or Goffreid Leibnetz that finally came up with integral calculus that takes care of absolutely everything.
Objects such as liquids, gases, and irregularly shaped solids are typically measured in volume. Volume is the amount of space occupied by an object and is commonly measured in units like liters or cubic centimeters.
This is the Archimedes principle.
Water displacement is used to find the volume of irregularly shaped solids because when the solid is immersed in water, it displaces an amount of water equal to its volume. By measuring the change in water level before and after immersing the solid, you can calculate the volume of the solid.
To measure the volume of irregularly shaped rocks, you can use the water displacement method. Submerge the rock in a container of water and measure the change in water volume as the rock displaces the water. The difference in water volume before and after submerging the rock will give you the volume of the rock.
Because their atoms do not have enough energy to move.
A common tool used to measure the volume of solids is a graduated cylinder or a beaker for regularly shaped solids. For irregularly shaped solids, displacement method using a measuring cylinder and water can be used to find the volume.
The volume of an irregularly shaped solid can be measured by placing the solid in a known quantity of water in a container with measurement markings. Take the new volume and find the difference between this and the old volume. This is the volume of your irregularly shaped solid.
Google "Archimedes' Principle" and see if that gives you a clue...
The volume of an irregularly shaped geometric object is typically determined by the amount of water it displaces when submerged. This method utilizes the principle of fluid displacement to calculate the volume of the object. By measuring the amount of water the object displaces, one can determine its volume.
You can push it under water / under the liquid's surface, and measure the displacement of liquid.
Use a measuring cylinder with water in it. Note down the volume of water in the cylinder, then add the solid. Note down the new volume and subtract the first value from the second to get the volume of the solid.
If the object in question is water proof, and small enough. You can measure the amount of displaced water when it is placed in a tank full of water, this may not work for a lot of things but it can help when attempting to measure some objects.
yes you can use a balance to measure the volume of an irregular shaped solid.
Measuring irregularly shaped objects by water displacement is a common technique because it provides an accurate volume measurement regardless of the object's shape. By comparing the volume of water displaced before and after placing the object in the water, you can determine the volume of the object without needing to calculate complex mathematical formulas.
Objects such as liquids, gases, and irregularly shaped solids are typically measured in volume. Volume is the amount of space occupied by an object and is commonly measured in units like liters or cubic centimeters.
You can find the volume of an irregularly shaped object, like a rock, by using the water displacement method. Submerge the object in a known volume of water in a container. Measure the increase in water level, which equals the volume of the rock.
To calculate the volume of an irregularly shaped object, a good idea would be to get a bucket full of water and submerge that object into the bucket. Then measure the amount of water that runs over and that should be the volume of your object. For example if you take a sealed bottle of bottle stick it in a bucket filled with water, then let it's volume filll the space and displace the water. The water that is displaced or the water that runs out is the volume of your irregular shape. Get it?