multiply it Length- Width - Height , or measure the volume of a container of water then stick the object in and measure the volume of the object+water then subtract the volume of the water then you have the volume
you can do a simple easy experiment to find the volume of a ping ball (water displacment). Place the ping pong ball in an amount of water with a known volume in a SI unit of volume (mL, liters). Notice the water has risen. Subtract the vslue of the original water from the new value of the water. This is the ping pong's volume.
The formula for volume of a cylinder is (pi *r2 )h
Eureka!There really isn't a "formula" for discovering the volume of an irregularly shaped solid. Instead, submerge the irregular solid in water and measure the volume of water it displaces to discover its volume. The ExperimentFor finding the volume of an irregular solid we just fully dip (submerge) it in a water tank which is fully filled with water and is attached to an another tank (a cylindrical overflow tank) through a pipe. With the setup in place, we put the solid into the full tank. The solid will displace water, which will flow through the pipe into the overflow tank. Further, the volume of the water the solid displaces will be equal to the volume of that irregular solid. Now we calculate the volume of water in the overflow tank using the depth of that water and the diameter of the tank. The volume of the displaced water will equal the volume of the irregularly shaped solid.There will generally not be a formula and the volume will have to be measured in some other way.
water displacement
The volume of the gold nugget can be calculated by subtracting the final volume (225 ml) from the initial volume (80 ml) of water in the graduated cylinder. Therefore, the volume of the gold nugget is 145 ml.
The volume of the gold nugget can be calculated by finding the difference in volume before and after adding the nugget. The volume of the gold nugget is 225 mL (final volume) - 85 mL (initial volume) = 140 mL.
Agreed with your correspondent(AnswerBot)!!! However, it must be a huge measuring cylinder if it has a volume of 255 L . I think you mean 255 mL. 255 L is 255 litres = 255,000 mL , which is a quarter of a cubic metre. Please ensure that you correctly insert the units.
Assuming the gold nugget is solid and pure (unlikely in real life!) The volume of the nugget is 77.0 - 50.0 mL = 27.0 mL So density = mass/volume = 521/27.0 = 19.3 g per mL.
Submerge it in water and determine the volume (in cubic centimeters) that it displaces. That will be the volume of the nugget.
The total volume of the solution is 225ml + 65ml = 290ml. The percentage of alcohol in the solution is (65ml / 290ml) x 100% = 22.4%.
Yes, the density of gold is known (19.32 g/cm^3). By using the formula for density (density = mass/volume), you can calculate the expected volume the gold nugget should displace based on its mass. If the calculated volume matches closely with the measured volume, it is likely the nugget is made of gold.
A constant volume.
Fill the graduated cylinder half full (may be more or less depending on the actual situation) and drop in the gold nugget. Read the final volume mark and subtract the initial volume from the final volume. This difference in volume is the volume of the nugget. This is related to the principle of buoyancy and it is said to have had a colourful story behind its discovery. Read the Wikipedia article on 'Eureka (word)' to learn more.
25cl of water is equivalent to 250 milliliters.
You can find the volume of the irregular cork by immersing it in a known volume of water and measuring the amount the water level rises. The volume of water displaced is equal to the volume of the cork.
pebble has volume so water rises equal to volume of pebble