The density will increase.
(mass) Density is mass/volume, so increasing the volume with mass held constant will decrease the density.
If you want to determine the density of an object, you would measure the mass and volume, then divide mass/volume to determine density. This can help determine the composition of the object. For example, if you find a rock that looks like a gold nugget. The density of gold is a known value, so one of the tests in determining if you are holding real gold would be to determine the density of your rock. This is one example. Another (maybe more 'real world' for you). Shipping and cargo companies measure the volume of packages as they go by on the conveyor belt, so that they can figure how many will fit in a particular truck.
Holding You Down - Goin' in Circles - was created on 2010-07-10.
by holding it in place
"Can't hold without holding it" doesn't make sense. Either you hold it, or you don't. Tertium non datur.
Holding volume constant while increasing mass will increase density. density = mass / volume
(mass) Density is mass/volume, so increasing the volume with mass held constant will decrease the density.
it doesnt change
Original density = M/VNew density = (KM)/(KV) = (K/K) (M/V) = original density.If the mass and volume both increase by the same factor, the density is unchanged.It only means that you have a larger piece of the same substance.
Density would be reduced. Density is a measure of the mass per unit volume. For example, 10 particles per cubic mL. If you made the vollume bigger but kept the mass the same, there would be more room for the ten particles to spread out, they'd be further away from each other so the density would be less.
It makes your density thicken.
"Inflated" means "artificially high" in general usage. In economics, it refers to the process by which, holding the real value of goods constant, their nominal values increases. This translates into increasing price levels.
ceteris paribus
Sure, reduce the pressure.Boiling can be produced either by:raising temperature while holding constant pressurelowering pressure while holding constant temperature
Nothing happens to the density. It's a property of the <substance>. The density is the same regardless of how large a piece you have. That's why density is a useful concept. It tells you something that's true of the <substance> regardless of what size sample you're holding. A large block of ice has the same density as a small ice cube. The 49¢ sample of Acme soap has the same density as the $1.49 family-size bar of Acme soap.
It completely depends on WHO or WHAT it is that that is "holding you to answer."
Ceteris paribus does translate into meaning "all other things being equal or held constant.