(*There are four, or technically five states of matter, including solid, liquid, gas, and plasma, and the exotic Einstein-Bose condensates.)
On the surface of Earth, the most common substance is water, which has a comparatively narrow range of temperatures separating its phases: ice below 0 degrees Celsius, water from 0 to 100 degrees Celsius, and steam above 100 degrees Celsius. Almost every substance has a 'triple point' where at the correct temperature and pressure it exists in all three states at once (solid, liquid gas). Further to that, at the 'critical point' there exists no distinct phase boundaries for a substance.
substance that exist in all three states of matter at normal temperature
Water is liquid, when frozen it solidifies thus it is solid, when water dries it is evaporated and leaves gas (condensation). So water exists in all three physical states on earth.
carbon dioxide and almost any other substance. The state for most substances depends on the combination of pressure and temperature.
ANS = ICE
BECAUSE IN SOLID STATE IT`S ICE ,
IN LIQUID STATE YOU HAVE TO MELT SO WATER COMES AND
IN GASEOUS STATE YOU HAVE TO BOIL SO STEAM COMES
SO ICE WILL EXISTS IN 3 States
Water
h2o
water
water
A mixture is not a state of matter. A mixture is a combination of different substances that are physically combined but not chemically bonded, such as a solution or a heterogeneous mixture. States of matter refer to the physical forms that a substance can exist in, such as solid, liquid, or gas.
Not all matter is classified as either a substance or a compound. Matter can also exist in other forms, such as mixtures or elements. Substances are pure forms of matter that have a fixed composition, while compounds are made of two or more elements chemically combined in fixed ratios.
Elements are called the building blocks of matter because they are the fundamental substances that compose all matter in the universe. Elements cannot be broken down into simpler substances through chemical reactions, making them the basic units from which all other substances are formed.
The three states of matter (solid, liquid, gas) are determined by the arrangement and movement of the particles that make up a substance. In solids, particles are closely packed and vibrate in place. In liquids, particles are more spread out and can move past each other. In gases, particles are far apart and move freely. The state of matter depends on the balance between the intermolecular forces and the kinetic energy of the particles.
Chemical properties depend on how a substance interacts with other substances, indicating its reactivity, stability, and ability to undergo chemical changes. These properties can include flammability, acidity, and corrosion resistance.
The fundamental states of matter are: solid, liquid, gas, plasma; but other forms also exist.
It's not just water. Most substances can be in the three "classic" states of matter, i.e., solid, liquid, gas. Note that water (and many other substances) can also be in an additional state of matter, namely, "supercritical".
properties of matter that determine how a substance reacts with other substances
Plasma consists of charged particles like electrons and positively charged ions, which are not typically present in elements in other states. These charged particles are able to move freely and are responsible for the unique properties of plasma, such as conducting electricity and responding to magnetic fields.
Water has a higher specific heat capacity and heat of vaporization compared to most other liquids, making it an effective heat reservoir and solvent. Its unique property of density increasing when it freezes allows ice to float, whereas most other substances become denser and sink when solidifying. Also, water exhibits high surface tension due to hydrogen bonding, which leads to capillary action and other distinctive behaviors.
Chemical properties depend on how a substance interacts with other substances, indicating its reactivity, stability, and ability to undergo chemical changes. These properties can include flammability, acidity, and corrosion resistance.
Matter
Yes, matter and space can exist in the same place. Matter occupies space, so they coexist within the same physical location. The presence of matter within a space gives that space substance and volume.
properties of matter that determine how a substance reacts with other substances
The main reason is simply one of dichotomy: either a substance is pure or it is not pure. If it is not pure then it consists of two (or more) substances which are chemically separate - a mixture.
They are made of different kinds of molecules.
These changes of state are: solid to liquid, liquid to gas, gas to liquid, liquid to solid, solid to gas, gas to solid. The majority of substances have these state of matter changes.