It is matter. because H2O means water, and water is one form of matter cause its liquid.
Water is H2O no matter what temperature it is, hot or cold. H2O Cold
All chemical reactions obey the law of conservation of matter.
Change in the state of matter. It is the same thing but, one is under less pressure or higher temperature (or both) than the other.
Hydrochloric acid is an aqueous solution of hydrogen chloride (HCl) and water (H2O). The acid is a liquid matter.
a balanced equation is when all matter is accounted for on both sides. This is important because matter cannot be created or destroyed. For example, the creation of glucose through photosynthesis looks like this: CO2 + H2O = C6H12O6 + O2 + H2O This is an unbalanced equation because there is not enough oxygen, hydrogen, and carbon on the left side to create the right side. The balanced equation would be: 6 CO2 + 12 H2O = C6H12O6 + 6 O2 + 6 H2O The number of oxygen, hydrogen, and carbon atoms on each side, when subtracted, create 0 which means all matter is accounted for and therefore the equation is balanced
thomas
Water is H2O no matter what temperature it is, hot or cold. H2O Cold
H2O and CO2
All chemical reactions obey the law of conservation of matter.
Change in the state of matter. It is the same thing but, one is under less pressure or higher temperature (or both) than the other.
Pure water is H2O, liquid at room temperature.
Hydrochloric acid is an aqueous solution of hydrogen chloride (HCl) and water (H2O). The acid is a liquid matter.
only these 4 matter (e.g h2o) gravity habitat temperature
If you meant "compound" the answer is "H2O" or "water." If you meant "element" the answer is "hydrogen."
All are compounds; a form of matter composed of two or more elements.
kidneys (h2o excreted 1 lt) lungs ( h2o excreted 0.35 lt) skin (h2o excreted 0.5 lt)
Water is homogeneous. ------------------------------------------------- Actually natural water is heterogeneous as it is a mixture of H2O and a very tiny amount of D2O. The D2O (i.e. heavy water) has higher mass than H2O and slightly different chemical properties. However for ordinary practical purposes the presence of this D2O can usually be ignored.