density is the word used to describe how much is in a certain place e.g. 100ml of salt water has a higher density than the same amount of pure H2O because the salt water has both H2O and NaCl (salt) squashed into the same amount of space therefore everything has density if however if you meant mass or weight the answer would also be yes
u will need the density. density = mass / volume so mass = volume x density
In a simple way, since density = mass /volume, the density of an object can be changed by changing either mass or volume of an object .
Density. An object will float in a substance if its density is less than the density of the substance. The density of water is 1 kg /L or 1 g/ cm3. Anything with a density less than this will float.
It's actually pretty easy. If the density of the substance is higher than the density of water, the object will sink. If the density of the substance is lower than the density of water, the object will float. Be aware though that various substances may have dissolved into the water, thus changing its density. For example, seawater has a different density than fresh water.
D=m/v Density=mass/volume de= ma/vo Density = Mass/Volume
They can DEFINITELY breathe antimatter
Antimatter - band - was created in 1998.
Antimatter - album - was created in 1993.
No, antimatter does not possess negative mass. Antimatter has the same mass as regular matter, but opposite charge.
No, a black hole is not made of antimatter. A black hole is formed when a massive star collapses under its own gravity to a point of infinite density, known as a singularity. Antimatter is composed of particles with properties opposite to those of normal matter, such as having opposite electric charge.
Antimatter was discovered in 1928 by Paul Dirac.
Antimatter was discovered in 1928 by Paul Dirac.
Lights Out - Antimatter album - was created in 2003.
Absolutely not - Antimatter is a hypothetical form of matter that is as yet unsubstantiated. Answer It's possible but not probable. And antimatter is not hypothetical
That is not currently known. There is a slight assymetry between matter and antimatter, but so far, it seems that this assymetry is not enough to explain why there is only matter, and hardly any antimatter, in the Universe. Without such an assymetry, there wouldn't be either matter or antimatter in the Universe - just radiation. For more information about what is known, and what isn't, check the Wikipedia article on "Baryon asymmetry".
Antimatter is real. Liking or disliking it is irrelevant.
antimatter has always been here but nobody knew about it until recently