Yes. An example of this is when a gas completely fills its container, like when you blow up a balloon or beach ball.
"large density" ===> (relatively large mass) fits into (relatively small volume)
A small cell will have a larger surface-to-volume ratio.
10 inches
Unless you have an extremely small house or an extremely large pencil a house has a greater volume than a pencil.
If the surface area of the organism is small, then there is no problem with getting all the oxygen needed. If the surface area of the organism is large, therefore a special respiratory surface is needed. An example is lungs, gills. The ratio of surface area to volume in a small organism is greater than the ratio in a large organism.
The property of gases being compressible allows them to be densely packed into small volumes, such as cylinders. This means that gas particles can be squeezed close together, reducing the overall size of the gas. This compressibility allows for the storage of large volumes of gases in relatively small containers.
A large cone has a greater volume than a small frustum while a small cone has a smaller volume than a large frustum
"large density" ===> (relatively large mass) fits into (relatively small volume)
Several small volumes is more effective.
A small cell will have a larger surface-to-volume ratio.
You have decreased the volume
Measuring Pipette is for small amount of volume only.Graduated Cylindrers is for measuring large amount of volume.
I think they come in small, medium, and large.
An object with a high density, such as a lead ball, can have a small capacity (volume) but a large mass. This is because density is the ratio of an object's mass to its volume, so objects with high density have a lot of mass packed into a small space.
A millimeter is not equivalent to any volume, no matter how large or small, because "millimeter" is not a unit of volume, so there's no way to compare it to any volume.
A mineral's density increases as its mass per unit volume increases. If a mineral has a small mass and large unit volume, its density is smaller. Whereas, if a mineral has a large mass and a small unit volume, its density is greater.
No, you've got it reversed.