That would depend directly on the picture given to you on the assignment.
That's because water is concave to an apparatus.
Water is more dense than ice. That's why ice floats in water. As the ice melts, the water level rises, but it never gets as high as the highest peak of the floating ice was.
Water displacement can accurately find the volume of substances as it represents the same amount of space or volume. An object placed into the water will displace the same amount of water volume as its own volume.
You can find the volume of a small rock in no time at all. Just fill up a container that is marked by volume with water and record the volume. Then drop the small rock inside the container. Record the new volume. Find the difference between the new and old volumes. This is the volume of the small rock. You could do this in any liquid.
disadvantages the object being imersed in the water may react with water or even dissolve slightly therefore reducing the accuracy of the results. the string used to lower the object into the water may also suck some of the water into it. the object may be too light and float on the water. advantages the method is quick and easy if the correct liquid is used with the right object
That's because water is concave to an apparatus.
certainly by depth and volume of water..
You find the volume and the weight of the cream. The weight should be easy using a scale. The volume can be found by taking a container of water. If it is marked (indicating cups or deciliters) fill it so the cream can go under water. Note the height of water, put in cream, note new height of water. The difference is the volume of the cream. If container not marked, fill it the the rim, put in cream, collect water that is spilled, measure volume of spilled water (=volume of cream). . The density is weight per volume. (E.g. 20 grams/1.2 deciliters)
Fill the cylinder with water to a marked point. Then place the rock in the water and measure how much the water level rises. That will give you the amount of volume displaced by the rock and so the volume of the rock.
You can tell which container has a bigger volume by using arithmetic solutions to calculate its volume.
A label on a bottle bought in a shop would show the volume. If there is no label, fill the bottle with water to the top, then empty the water into a measuring jar or cylinder. The volume is then read off the scale marked on the measuring jar or cylinder.
It depends on the volume of the box. The bigger the volume, the larger amount of water that will be displaced.
Yes under constant pressure, with a given mass, volume changes during the change of state. When steam condenses, its volume is reduced. But, when water changes into ice, its volume becomes more. This is known to be anomalous expansion of water. Where as in other cases, when the liquid form gets changed into solid form, the volume is reduced.
The Easiest way- fil a marked measuring cup with enough water to cover the pear. Note the measurement. now push the pear into the water. Note the larger measurement. Subtract smaller from larger. Difference is the volume of water the pear displaced, which is equal to the volume of the pear.
The evidence that will show an object as having a bigger volume is the mathematical solutions to their volume.
No. Normally bigger means having more volume!
The most common reason is that the solids are absorbing water in sufficient volume to cause a notable change in volume, without dissolving or losing their appearance as solids.