The discussion revolves around the classification of matter into states according to Einstein's equation e=mc². Participants explore whether there are four states of matter—solid, liquid, gas, and energy—and debate the validity of this classification, as well as the implications of energy being convertible to mass.
Participants express multiple competing views regarding the classification of matter and the nature of energy and mass conversion. There is no consensus on the four states of matter or the implications of energy being convertible to mass.
Participants highlight limitations in the definitions of states of matter, including the dependence on scale, context, and specific conditions under which materials are observed. The discussion reflects the complexity and nuance involved in categorizing states of matter.
The fourth state of matter is plasma (ionised gas). And yes, energy can be turned into matter. For example in a process called 'pair production' a gamma ray (high energy photons) transforms into an electron + a positron (mass).Tompuckett said:Based on Einsteins theory, e=mc2, would it be right to say that matter has 4 states?Solid, Liquid, Gas and Energy.And if this is true, would it be safe to say that energy can be converted to matter?
_Mayday_ said:Water is a liquid. A brick is a solid.
Now if I took a huge amount of bricks and observed them from a large enough distance, would the bricks not have liquid like properties? Say if we couldn't actually make out the individual bricks. How do we define the 4 states of matter?
_Mayday_ said:Water is a liquid. A brick is a solid.
Now if I took a huge amount of bricks and observed them from a large enough distance, would the bricks not have liquid like properties? Say if we couldn't actually make out the individual bricks. How do we define the 4 states of matter?
I don't think so Mayday. A fluid is defined as a substance that cannot withstand a shearing stress, i.e., it starts to flow when subjected to one. This would not apply to a collection of bricks, regardless of how far away you viewed it from._Mayday_ said:Water is a liquid. A brick is a solid.Now if I took a huge amount of bricks and observed them from a large enough distance, would the bricks not have liquid like properties? Say if we couldn't actually make out the individual bricks.
tonyh said:I don't think so Mayday. A fluid is defined as a substance that cannot withstand a shearing stress, i.e., it starts to flow when subjected to one. This would not apply to a collection of bricks, regardless of how far away you viewed it from.
K.J.Healey said:Whats the difference between a molecule and a brick? I agree with mayday, from far enough away a collection of bricks would act like a liquid. The collection floating in space couldn't withstand a sheer stress. Each individually could, so could a molecule of sugar.
spideyunlimit said:the fourth state is plasma, not energy.
energy is not mass, mass can be converted to energy.
mgb_phys said:I've never been happy with the 4 states of matter argument.
Especially when you start adding special cases, is a bose condensate a new state? If so is a superfluid liquid different from a liquid, is a glass a different state, what about a plasma in a magnetic field.
I think it's more usefull to think of a tree.
At the top you have a split energy / matter
Then under matter you have branches for solid, liquid, gas.
Then under gas you have atomic, plasma
Under solid, different crystal states, liquid crystals, superconductors etc
Shackleford said:You're comparing apples to oranges. A brick is a solid which displays macroscopic properties of solid state. You could put anything in space and do whatever you want with it, but in this case you'd just be experimenting with Newton's Laws. It would not act like a liquid. The rigid bricks would just move, not flow or deform.